applications manual 2013 - chromspec manual arma. uct, ... delta 9-thc (parent), delta 9-hydroxy...
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Table of Contents
PREPARATIONS
SOLVENTS, SOLVENT MIXTURES, AND NON CHLORINATED SOLVENTS ........................................................................... 7
HOW TO PREPARE SOLUTIONS AND BUFFERS ................................................................................................................. 8-9
EXTRACTION HINTS ................................................................................................................................................................ 10
DRUG TESTING METHODS
Amine Methods:
Sympathomimetic Amines in Blood, Plasma/Serum Urine and Tissue for GC-GC/MS ................................................................................... 12-14
Amphetamines in Urine, Oxidation with Periodate for GC-GC/MS .................................................................................................................. 15-16
Benzodiazepine Methods:
Extraction of Benzodiazepines from Urine using SPE cartridge XCEL I .............................................................................................................. 17
Extraction of Benzodiazepines from Urine using SPE 96 or 48 well plate XCEL I ................................................................................................ 18
Benzodiazepines in Whole Blood for GC-GC/MS ................................................................................................................................................ 19
Benzodiazepines in Urine for GC or GC/MS .................................................................................................................................................... 20-21
Benzodiazepines Screen: Blood, Serum, Urine and Tissue for LC/MS/MS .................................................................................................... 22-24
Benzodiazepines Screen: Blood, Serum, Urine and Tissue for GC-GC/MS .................................................................................................... 25-26
Benzodiazepines in Serum or Plasma for HPLC Analysis .................................................................................................................................... 27
Clonazepam & 7-Aminoclonazepam in Urine for GC/MS ................................................................................................................................ 28-29
Flunitrazepam and Metabolites in Urine for GC or GC/MS .............................................................................................................................. 30-31
Clonazepam / Flunitrazepam & Metabolites in Blood, Plasma/ Serum and Urine for LC/MS/MS .................................................................... 32-33
Cannabinoid Methods:
Extraction of THC delta 9-Carboxy Metabolite using SPE cartridge XCEL II ....................................................................................................... 34
Carboxy- delta 9-THC (pKa = 4.5) in Urine for GC/MS ......................................................................................................................................... 35
delta 9-THC (parent), delta 9-Hydroxy THC, Carboxy- delta 9-THC in Whole Blood for GC/MS 200 mg ........................................................ 36-37
delta 9-THC (parent), delta 9-Hydroxy THC, Carboxy- delta 9-THC in Whole Blood for GC/MS 100 mg ....................................................... 38-39
Acid Drug Methods:
Extraction of Acid/ Neutral and Basic Drugs* and Metabolites from Urine using XCEL I .............................................................................. 40-41
Barbiturates in Urine for GC or GC/MS ........................................................................................................................................................... 42-43
Barbiturates in Blood, Plasma/Serum, Urine and Tissue (Reduced Solvent Volume) ................................................................................... 44-45
Beta Agonists in Urine for GC/MS ....................................................................................................................................................................... 46
Carisoprodol and Meprobamate in Blood, Plasma/Serum, Urine and Tissue for GC-GC/MS ............................................................................ 47
Gabapentin in Blood, Plasma/Serum for GC-GC/MS ......................................................................................................................................... 48
Gabapentin in Blood, Plasma/Serum Urine for LC/MS/MS ............................................................................................................................. 49-51
Methylmalonic Acid from Serum or Plasma for GC/MS ...................................................................................................................................... 52
Nicotine and Cotinine in Urine or Serum for GC-GC/MS .................................................................................................................................... 53
Therapeutic and Abused Drugs in Blood, Plasma/Serum and Urine for Acid/Neutral and Basic Drugs for GC-GC/MS ................................ 54-56
Warfarin in Whole blood: Manual Method for GC-MS or LC Confirmations ................................................................................................... 57-58
Caffeine, Theophylline and Theobromine in Blood, Plasma/ Serum, and Urine for LC-PDA ......................................................................... 59-60
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Basic Drug Methods:
Extraction of Basic Drugs and Metabolites from Urine SPE cartridge XCEL I ..................................................................................................... 61
Extraction of Basic Drugs and Metabolites from Urine using SPE 96 or 48 well plate XCEL I ............................................................................ 62
Basic Drugs for HPLC Analysis ............................................................................................................................................................................ 63
Beta Blockers in Blood and Urine for GC/MS ....................................................................................................................................................... 64
Tricyclic Antidepressants in Serum and Plasma for HPLC ........................................................................................................................... 65-66
Methadone in Urine for GC-GC/MS ...................................................................................................................................................................... 67
Methadone / EDDP in Whole Blood, Serum / Plasma, Tissue and Urine ....................................................................................................... 68-69
Paroxetine in Blood, Plasma/Serum and Urine for LC/MS/MS ....................................................................................................................... 70-71
Propoxyphene in Blood, Plasma/Serum, Urine and Tissue for GC or GC/MS ................................................................................................. 72-73
Proproxyphene / Norpropoxyphene in Whole blood, Serum / Plasma for LC/MS/MS .................................................................................... 74-75
Sertraline and Desmethylsertraline in Blood, Serum and Plasma for HPLC Analysis ..................................................................................... 76-77
Antidepressants / Painkillers in Blood and Urine for LC/MS/MS ...................................................................................................................... 78-80
Antidepressants In Blood, Serum/Plasma, And Urine ...................................................................................................................................... 81-83
Clozapine and Metabolites in Whole Blood, Serum/Plasma and Urine for LC/MS/MS or LC-UV ................................................................... 84-85
Olanzapine in Whole Blood: for LC-UV ........................................................................................................................................................... 86-87
Dextromethorphan and Phencyclidine in Whole Blood and Urine LC/MS/MS ................................................................................................. 88-90
Duloxetine in Blood and Urine LC/MS/MS ....................................................................................................................................................... 91-92
Tramadol and Desmethyltramadol in Blood, Plasma/Serum, Urine and Tissue .............................................................................................. 93-94
Qutiapine in Blood, Plasma/Serum, Urine and Tissue ..................................................................................................................................... 95-96
Drugs of Abuse Methods:
Cocaine and Benzoylecgonine in Serum, Plasma or Whole Blood for HPLC ...................................................................................................... 97
Cocaine and Cocaine Metabolites for GC-GC/MS ............................................................................................................................................... 98
Cocaine and Benzoylecgonine in Blood Plasma/Serum and Tissue for GC-MS ................................................................................................. 99
Cocaine, Benzoylecgonine, and Cocaethylene in Blood, Plasma/Serum, Urine and Tissue ....................................................................... 100-102
A Solid Phase Method for Gamma-Hydroxybutyrate (GHB) in Urine without Conversion to Gamma-Butyrolactone (GBL) .............................. 103
Blood GHB Extraction .................................................................................................................................................................................. 104-105
A Solid Phase Method for Gamma-Hydroxybutyrate (GHB) in Blood, Urine, Vitreous or Tissue without Conversion to
Gamma-Butyrolactone (GBL) ...................................................................................................................................................................... 106-107
Ketamine in Blood, Plasma/Serum Urine for GC-GC/MS .................................................................................................................................. 108
Lysergic Acid Diethylamide (LSD) in Blood, Serum/Plasma for GC-GC/MS ...................................................................................................... 109
Lysergic Acid Diethylamide (LSD) in Urine for GC-GC/MS ................................................................................................................................. 110
LSD and Metabolites in Blood, Plasma/Serum, and Urine ........................................................................................................................... 111-113
Methaqualone in Blood, Serum/Plasma and Urine for GC-GC/MS .................................................................................................................... 114
Methaqualone in Blood, Serum/Plasma and Urine .................................................................................................................................... 115-116
Meperidine and Normeperidine in Blood, Plasma/Serum, and Urine ........................................................................................................... 117-119
Psilocin in Urine for GC-GC/MS .................................................................................................................................................................. 120-121
Free and Conjugated Psilocin in Urine by LC-MS/MS ................................................................................................................................. 122-124
Psilocin in Blood, Plasma/Serum, Urine by LC-MS/MS .............................................................................................................................. 125-127
Phencyclidine in Blood, Serum/Plasma, Urine and Tissue for GC-GC/MS ....................................................................................................... 128
Phencyclidine in Whole Blood, Serum/Plasma and Urine for LC/MS/MS .................................................................................................. 129-130
Fentanyl/ Norfentanyl in Whole Blood, Serum/Plasma and Urine for LC/MS/MS ...................................................................................... 131-132
Fentanyl/ Analogues in Blood, Plasma/Serum, Urine and Tissue for GC-GC/MS ...................................................................................... 133-134
Fentanyl/ Norfentanyl on Oral Swabs for LC/MS/MS .................................................................................................................................. 135-136
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Opiate Methods:
Opiates in Urine - Oxime - TMS Procedure for GC-GC/MS ....................................................................................................................... 137-138
Opiates in Human Urine - Propyl Derivatives for GC- GC/MS ................................................................................................................... 139-140
Free (Unbound) Opiates in Blood, Plasma/Serum, and Tissue for GC OR GC/MS .................................................................................... 141-142
6-Acetylmorphine (6MAM) in Urine/Vitreous Humor GC/MS ...................................................................................................................... 143-144
Buprenorphine and Norbuprenorphine in Blood, Urine for GC/MS ............................................................................................................. 145-148
Buprenorphine and Norbuprenorphine in Blood, Plasma/Serum, and Urine for LC/MS/MS ...................................................................... .149-150
ORAL FLUID METHODS
Amphetamines, Opiates, & Phencyclidine in Oral Fluid for GC/MS .................................................................................................................. 151
Cocaine & Benzoylecgonine in Oral Fluid for GC/MS ................................................................................................................................ 152-153
THC in Oral Fluid for GC/MS ...................................................................................................................................................................... 154-155
STEROID METHODS
Anabolic Steroids in Urine for GC-GC/MS ................................................................................................................................................. 156-157
DHEA, Testosterone and Epitestosterone in Urine for GC-GC/MS ........................................................................................................... 158-159
POLYMERIC RESIN METHODS
Amphetamines in Urine for GC/MS ................................................................................................................................................................... 160
Carboxy-THC in Urine for GC/MS ...................................................................................................................................................................... 161
Cocaine / Benzoylecgonine in Urine for GC/MS ................................................................................................................................................ 162
Opiates in Urine for GC/MS ............................................................................................................................................................................... 163
Phencyclidine in Urine for GC/MS ...................................................................................................................................................................... 164
PHARMACEUTIC METHODS
Purification of Small Molecule Libraries ..................................................................................................................................................... 166-167
Purification of Small Molecule Libraries TIN (Sn) ....................................................................................................................................... 168-169
Purification of Small Molecule Libraries Palladium (Pd) ............................................................................................................................. 170-171
Purification of Small Molecule Libraries TFAA Removal ............................................................................................................................ 172-173
Purification of Small Molecule Libraries Desalting Samples ...................................................................................................................... 174-175
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MISCELLANEOUS METHODS
Abused Drugs in Canine or Equine Urine ......................................................................................................................................................... 177
Extraction of Tear Gas ....................................................................................................................................................................................... 178
Glycopyrrolate (ROBINUL) From Equine Urine by LC/MS/MS .......................................................................................................................... 179
LC/MS Method for Extracting Ethyl Glucuronides from Urine .................................................................................................................... 180-181
Tacrolimus, Cyclosporin and Rapamycin in Whole Blood ................................................................................................................................ 182
Manual Method for Immunoassay: Preliminary Screening in Whole Blood ....................................................................................................... 183
Vitamin D and Metabolites Extraction ......................................................................................................................................................... 184-185
SAMPLE PREPARATION
Sample Preparation for Whole Blood, Serum and Plasma. ............................................................................................................................... 187
Sample Preparation for Urine. ............................................................................................................................................................................ 188
Sample Preparation for Tissue. .......................................................................................................................................................................... 189
DERIVATIZING REAGENTS
Introduction ........................................................................................................................................................................................................ 191
Derivatization Reagents, Solvents for Derivatization Reagents and their Abbreviations ........................................................................... 192-196
SOLVENTS, SOLVENT MIXTURES, AND NON CHLORINATED SOLVENTS
HOW TO PREPARE SOLUTIONS AND BUFFERS
EXTRACTION HINTS
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SOLVENTS Acetone; HPLC Grade Acetonitrile (CH3CN); HPLC Grade Chloroform (CHCl3); HPLC Grade Distilled or
Deionized Water (D.I. H2O, 5 < pH < 7); Ethyl Acetate (EtAc); HPLC Grade Hexane; HPLC Grade Isopropyl
Alcohol (IPA); HPLC Grade Methanol (CH3OH): HPLC Grade Methylene Chloride (CH2Cl2): HPLC Grade
SOLVENT MIXTURES Acetone / Hexane (1:99)
Acetonitrile / D.I. H2O (20:80)
Ethyl Acetate / IPA (75:25)
Ethyl Acetate / Hexane (50:50), (75:25)
Methanol / D.I. H2O (80:20)
Methanol / D.I. H2O (70:30)
Methanol / D.I. H2O (10:90)
USE OF NON-CHLORINATED ELUTION SOLVENTS In response to environmental concerns over the use of chlorinated compounds in the laboratory, UCT offers
these suggested non-chlorinated elution solvents. The recommended parameters have been used successfully
on UCT columns by our customers throughout the world and may be routinely used as an alternative to
chlorinated elution solvents. You may however see subtle differences on certain compounds due to solubility
effects.
Assay Chlorinated Non-chlorinated Opiates CH2Cl2 / IPA/NH4OH(78:20:2) EtAc / IPA/NH4OH (90:6:4)
Propoxyphene CH2Cl2 / IPA/NH4OH(78:20:2) EtAc / IPA/NH4OH (90:6:4)
Cocaine / BE CH2Cl2 / IPA/NH4OH(78:20:2) EtAc / CH3OH/NH4OH(68:28:4)
Amphetamines CH2Cl2 / IPA/NH4OH(78:20:2) EtAc / IPA/NH4OH (90:6:4)
UCT would like to thank Dr. Leon Glass for his efforts in developing these non chlorinated mixtures.
REAGENTS Acetic Acid, Glacial (CH3COOH):17.4 M
Ammonium Hydroxide (NH4OH): concentrated (14.8 M)
ß-Glucuronidase: Iyophilized powder from limpets (Patella vulgata)
Dimethylformamide (DMF): silylation grade
Hydrochloric Acid (HCI): concentrated (12.1 M)
N, O-bis(trimethylsilyl)trifluoroacetamide (BSTFA) with 1% trimethylchlorosilane (TMCS)
Pentafluoropropionic Acid Anhydride (PFAA or PFPA)
Phosphoric Acid (H3PO4): concentrated (14.7 M)
Sodium Acetate Trihydrate (NaCH3COO-3H2O): F.W. 136.08
Sodium Borate Decahydrate (Na2B4O7-10 H2O): F.W. 381.37
Sodium Hydroxide, (NaOH): F.W. 40.00
Sodium Phosphate Dibasic, Anhydrous (Na2HPO4): F.W. 141.96
Sodium Phosphate Monobasic, Monohydrate (NaH2PO4•H2O): F.W. 137.99
NOTES: Storage of organics in some plastic containers may lead to plasticizer contamination of the solvent or solvent
mixture, this may interfere with analyte quantitation. Good laboratory practice dictates all who handle or are
potentially exposed to reagents, solvents and solutions used or stored in the laboratory should familiarize
themselves with manufacturer’s recommendations for chemical storage, use and handling, and should also
familiarize themselves with an appropriate Material Safety Data Sheet (MSDS).
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HOW TO PREPARE SOLUTIONS AND BUFFERS
1.0 M Acetic Acid: To 400 mL D.I. H2O add 28.6 mL glacial acetic acid. Dilute to 500 mL with D.I. H2O. Storage: 25°C in glass or plastic. Stability: 6 months 100 mM Acetic Acid: Dilute 40 mL 1.0 M acetic acid to 400 mL with D.I. H2O. Mix. Storage: 25°C in glass or plastic. Stability: 6 months 100 mM Acetate Buffer (pH 4.5): Dissolve 2.93 g sodium acetate trihydrate in 400 mL D.I. H2O; Add 1.62 mL glacial acetic acid. Dilute to 500 mL with D.I. H2O. Mix. Adjust pH to 4.5 ± 0.1 with 100 mM sodium acetate or 100 mM acetic acid. Storage: 25°C in glass or plastic. Stability: 6 months; Inspect daily for contamination. 1.0 M Acetate Buffer (pH 5.0): Dissolve 42.9 g sodium acetate trihydrate in 400 mL D.I. H2O; Add 10.4 mL glacial acetic acid. Dilute to 500 mL with D.I. H2O. Mix. Adjust pH to 5.0 ± 0.1 with 1.0 M sodium acetate or 1.0 M acetic acid. Storage: 25°C in glass or plastic. Stability: 6 months; Inspect daily for contamination. 100 mM Acetate Buffer (pH 5.0): Dilute 40 mL 1.0 M acetate buffer to 400 mL with D.I. H2O. Mix. Storage: 25°C in glass or plastic. Stability: 6 months 7.4 M Ammonium Hydroxide: To 50 mL D.I. H2O add 50 mL concentrated NH4OH. Mix. Storage: 25°C in glass or fluoropolymer plastic. Stability: Storage condition dependent. ß-Glucuronidase, Patella vulgata, 5,000 Fishman units/mL: Dissolve 100,000 Fishman units Iyophilized powder with 20 mL 100 mM acetate buffer (pH 5.0). Storage: 5°C in plastic. Stability: Several days; Prepare daily for best results. 100 mM Hydrochloric Acid: To 400 mL D.I. H2O add 4.2 mL concentrated HCI. Dilute to 500 mL with D.I. H2O. Mix. Storage: 25°C in glass or plastic. Stability: 6 months Methanol /Ammonium Hydroxide (98:2): To 98 mL CH3OH add 2 mL concentrated NH4OH. Mix. Storage: 25°C in glass or fluoropolymer plastic. Stability: 1 day. 0.35 M Sodium Periodate: Add 37.5 g sodium periodate to a 500 mL volumetric flask, q.s. to volume with D.I. H2O. Mix. Stability: 2 mos. at room temperature. Methylene Chloride / Isopropanol / Ammonium Hydroxide (78:20:2): To 40 mL IPA, add 4 mL concentrated NH4OH. Mix. Add 156 mL CH2Cl2. Mix. Storage: 25°C in glass or fluoropolymer plastic. Stability: 1 day
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100 mM Phosphate Buffer (pH 6.0): Dissolve 1.70 g Na2HPO4 and 12.14 g NaH2P04 H2O in 800 mL D.I. H2O. Dilute to 1000 mL using D.I. H2O. Mix. Adjust pH to 6.0 ± 0.1 with 100 mM monobasic sodium phosphate (lowers pH) or 100 mM dibasic sodium phosphate (raises pH). Storage: 5°C in glass. Stability: 1 month; Inspect daily for contamination. 500 mM Phosphoric Acid: To 400 mL D.I. H2O add 17.0 mL concentrated phosphoric acid. Dilute to 500 mL with D.I. H2O. Mix. Storage: 25°C in glass or plastic. Stability: 6 months 1.0 M Sodium Acetate: Dissolve 13.6 g sodium acetate trihydrate in 90 mL D.I. H2O. Dilute to 100 mL with D.I. H2O. Mix. Storage: 25 °C in glass or plastic. Stability: 6 months 100 mM Sodium Acetate: Dilute 10 mL 1.0 M sodium acetate to 100 mL with D.I. H2O. Mix. Storage: 25°C in glass or plastic. Stability: 6 months 100 mM Sodium Borate: Dissolve 3.81 g Na2B4O7•10 H2O in 90 mL D.I. H2O. Dilute to 100 mL with D.I. H2O. Mix. Storage: 25°C in glass or plastic. Stability: 6 months. 100 mM Sodium Phosphate Dibasic: Dissolve 2.84 g Na2HPO4 in 160 mL D.I. H2O. Dilute to 200 mL using D.I. H2O. Mix. Storage: 5°C in glass. Stability: 1 month; Inspect daily for contamination. 100 mM Sodium Phosphate, Monobasic: Dissolve 2.76 g NaH2PO4-H2O in 160 mL D.I. H2O. Dilute to 200 mL with D.I. H2O. Mix. Storage: 5°C in glass. Stability: 1 month. Inspect daily for contamination. 100 mM Sulfuric Acid: To 400 mL D.I. H2O add 2.7 mL concentrated H2SO4. Dilute to 500 mL with D.I. H2O. Mix. Storage: 25°C in glass or plastic. Stability: 6 months
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Extraction Hints
Verify sample application pH. Analytes that are not in their proper form (i.e., neutral or
charged), will not effectively bind to the sorbent and may result in erratic recoveries.
Do not allow the sorbent to dry between conditioning steps or before sample
application. To insure properly solvated columns, apply each solvent immediately after
the previous solvent. Improperly conditioned cartridges may lead to erratic recoveries.
Prior to elution, fully dried cartridges will ensure optimal analyte recovery. To confirm
column dryness, press the sides of the cartridge at the sorbent level at full vacuum.
Columns should feel ambient temperature, not cool. If the column feels cool, water is
probably present. Dry the column further.
Always use fresh NH4OH when preparing basic elution solvents. Proper elution pH
(11-12) is critical to achieving optimal recovery of basic drugs with high pKa’s (i.e.,
amphetamines, some tricyclics, morphine). NH4OH rapidly loses its strength when
exposed to air. Weak NH4OH may lead to erratic recoveries.
NH4OH is more soluble in IPA than CH
2Cl
2. To ensure complete mixing of eluate
solvents, add NH4OH and IPA, then add CH
2Cl
2.
Some drugs are heat labile and will degrade if overheated. Closely monitor elution dry
down to prevent loss of analyte.
Always condition the column with the strongest solution the column will see to ensure
the cleanest extraction of your eluate.
Solvent quantities for RSV methods are suggested and might be further reduced to
meet particular laboratory needs.
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SYMPATHOMIMETIC AMINES IN BLOOD, PLASMA/SERUM URINE AND TISSUE FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE To 1 mL of 100 mM phosphate buffer (pH 6.0) add internal standard(s).* Add 1 mL of blood, plasma/serum, urine or 1g of (1:4) tissue homogenate. Mix/vortex Add 2 mL of 100 mM phosphate buffer (pH 6.0). Mix/vortex.
Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. Centrifuge as appropriate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 to 2 mL/minute. 4. WASH COLUMN 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM acetic acid. 1 x 3 mL CH3OH. Dry column (5 minutes at > 10 inches Hg). 5. ELUTE SMA 1 x 3 mL CH2Cl2/IPA/NH4OH (78:20:2); Collect eluate at 1 to 2 mL/minutes. NOTE: Prepare elution solvent daily. Add IPA/NH4OH, mix, then add CH2Cl2. 6. CONCENTRATE ELUATE Add 30 µL silylation grade DMF to eluate. Evaporate to 30 µL at < 40°C. ALTERNATE DRYING PROCEDURE Evaporate for 4 min. Add 100 μL of 1% HCl in methanol. Evaporate to dryness. 7. FLUOROACYLATE WITH PFPA (PFAA)*** Add 50 µL PFPA (PFAA). Overlay with N2 and cap. Improved derivatization by addition of 50 µL PFPOH.**** React 20 minutes at 70°C. Evaporate to dryness at < 40°C. Reconstitute with 100 µL ethyl acetate. 8. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions:
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ANALYTE (PFPA) Primary Ion** Secondary Tertiary Cerilliant# Amphetamine-D5* 194 92 123 A-005 Amphetamine 190 91 118 A-007 Methamphetamine-D5* 208 92 163 M-004 Methamphetamine 204 91 160 M-009 Pseudoephedrine 204 160 119 P-035 Ephedrine 204 160 119 E-011 Phenylephrine 190 119 267 Methylenedioxyamphetamine 135 162 325 M-012 Methylenedioxymethamphetamine 204 162 339 M-013 * Suggested internal standards for GC/MS: D5-Amphetamine and D5-Methamphetamine ** Quantification Ion *** Part # SPFAA-0-1, 10, 25,100 **** Part # SPFPOH-1, 10, 25,100 ALTERNATE DERIVATIZATION 7. Form TMS derivatives: Add 50 µL BSTFA with 1% TMCS and 50 µL of ethyl acetate. React 45 minutes at 70°C. 8. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: ANALYTE (TMS) Primary Ion** Secondary Tertiary Cerillinat# Amphetamine-D5* 120 197 92 A-005 Amphetamine-D6* 120 198 93 A-044 Amphetamine-D10* 120 202 97 A-038 Amphetamine-D12* 120 203 98 A-019 Amphetamine 116 192 91 A-007 Methamphetamine-D5* 134 211 92 M-023 Methamphetamine-D8* 137 214 92 Methamphetamine-D9* 137 215 93 M-091 Methamphetamine 130 206 91 M-004 Pseudoephedrine 130 147 294 P-035 Ephedrine 130 147 294 E-011 Methylenedioxyamphetamine 116 236 135 M-012 Methylenedioxymethamphetamine 130 250 131 M-013 Para-Methoxamphetamine 116 222 121 NMID1908 ALTERNATE DERIVATIZATION 7. Form 4-CB (4-Carbethoxyhexafluorobutyrl chloride)* derivatives: Add 20 µL 4-CB* and 100 µL of ethyl acetate. React 45 minutes at 70°C.
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8. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: ANALYTE (TMS) Primary Ion** Secondary Tertiary Cerillinat# Amphetamine-D5**** 298 270 399 A-005 Amphetamine 294 266 248 A-007 Methamphetamine-D5**** 312 284 266 M-023 Methamphetamine 308 280 262 M-004 Methylenedioxyamphetamine-D5**** 136 434 270 M-010 Methylenedioxyamphetamine 162 429 266 M-012 Methylenedioxymethamphetamine-D5**** 312 284 266 M-011 Methylenedioxymethamphetamine 308 280 262 M-013 Methylenedioxyethylamphetamine-D6**** 328 165 300 Methylenedioxyethylamphetamine 322 162 294 M-065 * Part # S4CB-0-10 *** Quantification Ion **** Suggested internal standards for GC/MS: D5-Amphetamine and D5-Methamphetamine
DCN-903020-30
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AMPHETAMINES IN URINE, OXIDATION WITH PERIODATE FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE To 1 mL of 100 mM phosphate buffer (pH 6.0) add internal standard(s)*. Add 2 mL of urine add, and 1 mL 0.35 M sodium periodate.
Mix/vortex. Incubate at room temp. for 20 min. Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 to 2 mL/minute. 4. WASH COLUMN 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM acetic acid. 1 x 3 mL CH3OH. Dry column (5 minutes at > 10 inches Hg). 5. ELUTE AMPHETAMINES 1 x 3 mL CH2Cl2/IPA/NH4OH (78:20:2); Collect eluate at 1 to 2 mL/minutes. NOTE: Prepare elution solvent daily. Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12). * Suggested internal standards for GC/MS: Amphetamine-D5 and Methamphetamine-D5 ** Quantification Ion *** Part # SPFAA-0-1, 10, 25,100 **** Part # SPFPOH-1, 10, 25,100 6. CONCENTRATE ELUATE Add 30 µL silylation grade DMF to eluate. Evaporate to 30 µL at < 40°C. Alternative: Add 100 μL of 1% HCl in methanol Evaporate to dryness at < 40°C. 7. FLUOROACYLATE WITH PFPA (PFAA)*** Add 50 µL PFPA (PFAA). Overlay with N2 and cap. Improved derivatization by addition of 50 µL PFPOH.**** React 20 minutes at 70°C. Evaporate to dryness at < 40°C. Reconstitute with 100 µL ethyl acetate.
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8. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: ANALYTE (TMS) Primary Ion** Secondary Tertiary Cerilliant # Amphetamine-D5* 194 92 123 A-002/ A-005 Amphetamine 190 91 118 A-007 Methamphetamine-D5* 208 92 163 A-004 Methamphetamine 204 91 160 A-009
DCN-903020-31
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17
EXTRACTION OF BENZODIAZEPINES FROM URINE USING SPE CARTRIDGES
130mg CLEAN SCREEN XCEL I Column (Part #: CSXCE106 6 mL - 130 mg Cartridge) (Part #: CSXCE103 3 mL - 130 mg Cartridge)
September 9, 2009
1. Sample Preparation
(Hydrolysis Step) To 1-5 mL urine sample add 1-2 mL of 0.1M acetate buffer (pH= 5.0) containing 5,000 units/mL -glucuronidase. Optionally, add 1-2 mL of acetate buffer and 25 µL of concentrated -glucuronidase. Add appropriate volume and concentration internal standards. Vortex and heat for 1-2 hours at 65 °C. Allow sample to cool.
Do not adjust pH- sample is ready to be added to extraction column.
2. Applying Sample to Column Load sample directly to column without any preconditioning. Pull sample through at a rate of 1-2 mL/ minute. Dry column thoroughly under vacuum (10 mm Hg) or positive pressure (~ 80-100 psi) for 1 minute.
3. Wash Wash sample with 1 mL of methylene chloride. Dry column thoroughly under vacuum (10 mm Hg) or positive pressure (~ 80-100 psi) for a minimum of 5-10 minutes.
NOTE 2: (It is important to dry the column thoroughly to achieve the highest recovery of all compounds. Any residual moisture will slow down the drying of the elution solvents prior to derivatization for GC/MS analysis. Also, any residual moisture could reduce the reactivity of the derivatization agent resulting in low GC/MS sensitivity.)
4. Elution Elute samples with 1 mL ethyl acetate/ ammonium hydroxide (98/2) Evaporate fraction to complete dryness under stream of dry air or nitrogen at ~ 35 °C.
GC/MS Analysis It is recommended to add 50 µL of Ethyl Acetate to 50 µL of derivatization agent and react at ~70 °C for 15 minutes. Inject 1-2 µL of cooled (50:50) solution in the GC/MS system for analysis.
LC/MS Analysis Reconstitute in methanol or appropriate mobile phase.
Benzodiazepine Analytes Extracted
Diazepam Clonazepam Alprazolam Midazolam
Nordiazepam 7-aminoclonazepam -OH Alprazolam -OH Midazolam
Temazepam Oxazepam Lorazepam Flurazepam
DCN-909090-167
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18
EXTRACTION OF BENZODIAZEPINES FROM URINE
(Part # WSH96XCE11 - 130 mg 96 well plate) (Part # WSH48XCE11 - 130 mg 48 well plate)
August 5, 2009
Sample Preparation
(Hydrolysis Step) To 1-2 mL urine sample add 500 µL of acetate buffer (pH= 5.0) containing 5,000 units/mL -glucuronidase. Optionally, add 500µL of acetate buffer and 25 µL of concentrated -glucuronidase. Add appropriate volume and concentration internal standards. Vortex and heat for 1-2 hours at 65 °C. Allow sample to cool.
Do not adjust pH- sample is ready to be added to extraction column.
Applying Sample to Column Load sample directly to column without any preconditioning. Pull sample through at a rate of 1-2 mL/ minute. Dry column thoroughly under vacuum (10 mm Hg) or positive pressure (~ 80-100 psi) for 1 minute.
Wash Wash sample with 1 mL of methylene chloride. Dry column thoroughly under vacuum (10 mm Hg) or positive pressure (~ 80-100 psi) for a minimum of 5-10 minutes.
NOTE 2: (It is important to dry the column thoroughly to achieve the highest recovery of all compounds. Any residual moisture will slow down the drying of the elution solvents prior to derivatization for GC/MS analysis. Also, any residual moisture could reduce the reactivity of the derivatization agent resulting in low GC/MS sensitivity.)
Elution
Elute samples with 1 mL ethyl acetate/ ammonium hydroxide (98/2) Evaporate fraction to complete dryness under stream of dry air or nitrogen at ~ 35 °C.
GC/MS Analysis It is recommended to add 50 µL of Ethyl Acetate to 50 µL of derivatization agent and react at ~70 °C for 15 minutes. Inject 1-2 µL of cooled (50:50) solution in the GC/MS system for analysis.
LC/MS Analysis Reconstitute in methanol or appropriate mobile phase.
Benzodiazepine Analytes Extracted
Diazepam Clonazepam Alprazolam Midazolam Nordiazepam 7-aminoclonazepam -OH Alprazolam -OH Midazolam Temazepam Oxazepam Lorazepam
DCN-900170-168
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BENZODIAZEPINES IN WHOLE BLOOD FOR GC OR GC/MS CONFIRMATIONS USING: 300 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSBNZ030 without Tips or ZCBNZ030 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE To 1 mL of pH 6 buffer add Internal standards*, add 2 mL of whole blood and vortex mix. Add 5 mL of pH 6 buffer Sonicate with a probe sonifier for ~10 seconds and centrifuge at ~2700rpm for 15 minutes. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL Ethyl Acetate. 1 x 3 mL MeOH. 1 x 3 mL DI H2O. 1 x 3 mL 0.1M phosphate buffer (pH 6.0). 3. APPLY SAMPLE Load sample by gravity. 4. WASH SAMPLE 1 x 3 mL DI H2O. 1 x 3 mL 5% acetonitrile in 0.1M phosphate buffer (pH 6.0). Dry columns 5 minutes at full vacuum or > 10 inches Hg. 1 x 3 mL Hexane. 5. ELUTE BENZODIAZEPINES 2 x 3 mL Ethyl Acetate. 6. DRY ELUATE Evaporate to dryness under nitrogen at ~ 55° C. Add external standards.* 7. DERIVATIZE Add 100μL acetonitrile and 100μL MTBSTFA w/1% t-BDMCS. Heat for 30 minutes at 70° C. Remove from heat source to cool. Inject 1μL into GC/MS-NCI. Note: Do not evaporate MTBSTFA solution. GC/MS Conditions: Agilent 6890/5975 inert MSD Inlet 260°, Split injection 2:1 Column: ZB-5MS, 15m, 0.25mm ID, 0.25μm film Temperature program: 70° hold 0.25 min, ramp 20° per min to 300°, hold 4 min. NCI parameters: Source 150°, Quad 106°, Methane as collision gas Suggested Internal standards : Diazepam-D5 and Lorazepam-D4.
DCN-903020-32
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BENZODIAZEPINES IN URINE FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part # ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE- ß-GLUCURONIDASE HYDROLYSIS To 2 mL of urine add internal standard(s)*** and 1 mL of ß-glucuronidase solution. ß-glucuronidase solution contains: 5,000 F units/mL Patella vulgata in 100 mM acetate buffer (pH=5.0). Mix/vortex. Hydrolyze for 3 hours at 65°C. Centrifuge for 10 minutes at 2000 rpm and discard pellet.
2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying.
3. APPLY SAMPLE Load at 1 mL/minute.
4. WASH COLUMN 1 x 2 mL D.I. H2O. 1 x 2 mL 20% acetonitrile in 100 mM phosphate buffer (pH= 6.0). Dry column (5 minutes at > 10 inches Hg). 1 x 2 mL hexane.
5. ELUTE BENZODIAZEPINES 1 x 5 mL ethyl acetate containing 4% ammonium hydroxide
collect eluate at 1 to 2 mL/minute.
6. DRY ELUATE Evaporate to dryness at < 40°C.
7. DERIVATIZE Add 50 μL ethyl acetate and 50 μL BSTFA* (with 1% TMCS)*. Overlay with Nitrogen and cap. Mix/vortex. React 20 minutes at 70°C. Remove from heat source to cool. NOTE: Do not evaporate BSTFA solution. * Part # SBSTFA-1-1,10, 25,100 *** Suggested internal standard for GC/MS: Prazepam or Oxazepam-D5 **** Quantitation ion
***** Part # SMTBSTFA-1-1,10, 25,100 8. QUANTITATE Inject 1 to 2 μL onto gas chromatograph. For MSD monitor the following ions:
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Generic Name Trade Name Primary Ion**** Secondary Tertiary Cerilliant# Alprazolam Xanax® 308 279 204 A- 907 α-Hydroxyalprazolam-TMS 381 396 383 A-903 Chlordiazepoxide Librium® 282 283 284 C-022 Clonazepam Clonopin® 387 352 306 C-907 Diazepam Valium® 256 283 221 A-907 Desalkylflurazepam-TMS 359 341 245 D-915 Hydroxyethylflurazepam-TMS 288 360 389 F-902 Lorazepam-TMS Ativan® 429 430 347 L-901 Nordiazepam-TMS 341 342 343 N-905 Oxazepam-TMS Serax® 429 430 313 O-902 Prazepam* 269 241 324 P-906 Temazepam-TMS Restoril® 343 283 257 T-907 Triazolam Halcion® 313 314 342 T-910 α-Hydroxytriazolam-TMS 15 417 430 T-911 NOTE: Flurazepam does not extract under these conditions; However metabolites such as desalkyflurazepam and hydroxyethylflurazepam will extract with high recovery.
ALTERNATE DERIVATIZATION 7. DERIVATIZE Add 50 μL ethyl acetate and 50 μL MTBSTFA***** (with 1% MTBDMCS). Overlay with Nitrogen and cap. Mix/vortex. React 20 minutes at 70°C. Remove from heat source to cool. NOTE: Do not evaporate MTBSTFA solution. 8. QUANTITATE Inject 1 to 2 μL onto gas chromatograph. For MSD monitor the following ions:
Generic Name Trade Name Primary Ion**** Secondary Tertiary Cerilliant# Nordiazepam -D5-TBDMS 332 334 333 N-903 Nordiazepam-TBDMS 327 328 329 N-902 Oxazepam-D5-TBDMS 462 519 462 O-901 Oxazepam-TBDMS Serax® 457 513 459 O-902 Temazepam-D5-TBDMS 362 390 288 T-903 Temazepam-TBDMS Restoril® 357 359 385 T-903 Lorazepam-TBDMS Ativan® 491 513 493 L-901 Clonazepam Clonopin® 372 374 326 C-907 7-Aminoclonazepam -TBMS 456 458 513 A-915 Diazepam Valium® 256 283 221 A-907 Desalkylflurazepam-TBDMS 345 347 402 D-915 Prazepam* 269 241 324 P-906 α-Hydroxymidazolam-TBDMS Versid® 398 400 440 H-902 Desmethylflunitrazepam-TBDMS 357 310 356 D-919 7-Aminoflunitrazepam-TBDMS 397 324 398 D-912 Alprazolam Xanax® 308 279 204 A-907 α-Hydroxyalprazolam-D5-TBDMS 386 388 387 A-904 α-Hydroxyalprazolam-TBDMS 383 384 381 A-903 Triazolam Halcion® 313 314 342 T-910 α-Hydroxytriazolam-TBDMS 415 417 190 T-9111
DCN-903020-33
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22
BENZODIAZEPINE SCREEN: BLOOD, SERUM, URINE AND TISSUE FOR LC/MS/MS USING: 300 mg CLEAN SCREEN® CSBNZ EXTRACTION COLUMN Part #: CSBNZ203 February 3, 2009
1. PREPARE SAMPLE To 1 mL of 100 mM phosphate buffer (pH= 6) add internal standards.*
Add 1 mL blood/ Urine or 1g of (1:4) tissue homogenate. Mix/ vortex. Add 3 mL of 100 mM phosphate buffer (pH= 6).
Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate Vortex mix. Centrifuge as appropriate.
PROCEDURE FOR URINE: To 1 mL of Acetate buffer (pH=5.0) containing 5000 F units/ mL β-Glucuronidase. Add internal standards*. To this solution add 1 mL of urine.
Mix/ Vortex . Hydrolyze for 3 Hrs at 65˚C. Allow to cool. Centrifuge for 10 minutes at 2000 rpm and discard pellet. Add 3 mL of 100 mM phosphate buffer (pH 6.0) and mix. 2. CONDITION CLEAN SCREEN® CSBNZ EXTRACTION COLUMN 1 x 3 mL MeOH 1 x 3 mL 100 mM phosphate buffer (pH= 6). NOTE: aspirate at < 3 inches Hg to prevent sorbent drying out. 3. APPLY SAMPLE: Load sample at 1-2 mL / minute. 4. WASH COLUMN: 1 x 3 mL of 5 % (v/v) acetonitrile in 100 mM phosphate buffer (pH6). Dry column (5 minutes at > 10 inches Hg). 1 x 3 mL of hexane. Dry column (5 minutes at > 10 inches Hg). 5. ELUTE BENZODIAZEPINES 1 x 3 mL ethyl acetate; ammonia (98:2 v/v). Collect eluate at 1-2 mL /minute. 6. EVAPORATION Evaporate eluates under a gentle stream of nitrogen < 40°.
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7. Reconsitute sample in 50 μL of 0.02% formic acid (aqueous).
INSTRUMENTAL CONDITIONS: LC-MSMS Column: 150 x 2.1 mm (3μm) Gold PFP (Thermo Fisher) Mobile phase 30: 70 (Acetonitrile: 0.02% aq. Formic acid) Flow rate: 0.35 mL/ min Column Temp: Ambient Injection Volume: 5 μL Mass Spectrometer: Applied Biosystem API2000
Compound MRM Transition Cerilliant# Alprazolam 309.1/281.2 A-903 *Alprazolam-D5 314.1/286.2 A-910 Alphahydroxyalaprazolam 325.1/242.9 A-907 *Alphahydroxyalprazolam-D5 330.1/302.2 A-902 Chlordiazepoxide 300.1/227.0 C-022 Diazepam 285.5/192.5 D-907 *Diazepam 292.2/198.2 D-902 Lorazepam 321.1/275.1 L-901 *Lorazepam-D4 325.1/279.0 L-902 Nordiazepam 271.1/140.1 N-905 *Nordiazepam-D5 275.6/140.1 N-903 Oxazepam 287.1/241.1 O-902 *Oxazepam-D5 290.2/198.2 O-901 Temazepam 301.1/255.1 T-907 *Temazepam-D5 306.1//260.1 T-902
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Chromatogram of 5 ng Benzodiazepines (without IS)
DCN-903020-34
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BENZODIAZEPINE SCREEN: BLOOD, SERUM, URINE AND TISSUE FOR GC-GC/MS USING: 300 mg CLEAN SCREEN® CSBNZ EXTRACTION COLUMN Part #: CSBNZ203 February 3, 2009
1. PREPARE SAMPLE To 1 mL of 100 mM phosphate buffer (pH= 6) add internal standards.*
Add 1 mL blood/ Urine or 1g of (1:4) tissue homogenate. Vortex mix. Add 3 mL of 100 mM phosphate buffer (pH= 6).
Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate Vortex and centrifuge as appropriate.
PROCEDURE FOR URINE To 1 mL of Acetate buffer (pH 5.0) containing 5000 F units/ mL β-Glucuronidase. Add internal standards*. To this solution add 1 mL of urine.
Mix/ Vortex . Hydrolyze for 3 Hrs at 65˚C. Allow to cool. Centrifuge for 10 minutes at 2000 rpm and discard pellet. Add 3 mL of 100 mM phosphate buffer (pH 6.0) and mix. 2. CONDITION CLEAN SCREEN® CSBNZ EXTRACTION COLUMN 1 x 3 mL MeOH 1 x 3 mL 100 mM phosphate buffer (pH 6). NOTE: aspirate at < 3 inches Hg to prevent sorbent drying out. 3. APPLY SAMPLE Load sample at 1-2 mL / minute. 4. WASH COLUMN 1 x 3 mL of 5 % (v/v) acetonitrile in 100 mM phosphate buffer (pH6). Dry column (5 minutes at > 10 inches Hg). 1 x 3 mL of hexane. Dry column (5 minutes at > 10 inches Hg). 5. ELUTE BENZODIAZEPINES 1 x 3 mL ethyl acetate; ammonia (98:2 v/v). Collect eluate at 1-2 mL /minute. 6. EVAPORATION Evaporate eluates under a gentle stream of nitrogen < 40°. 7. DERIVATIZE Add 50 μL acetonitrile and 50μL BSTFA with 1% TCMS Heat for 30 minutes at 70° C. Remove from heat source to cool. Inject 1μL into GC/MS
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Compound Primary ion Secondary Tertiary Cerilliant#
Alprazolam 308, 279 204 A-903
*Alprazolam-D 513 284 A-910
Alphahydroxyalprazolam 318 396 383 A-907
*Alphahydroxyalprazolam-D5 386 401 A-902
Diazepam 256 283 284 D-907
*Diazepam-D5 287 289 D-902
Lorazepam 429 430 347 L-901
*Lorazepam-D4 433 435 L-902
Nordiazepam 34 342 343 N-905
*Nordiazepam-D5 345 347 N-903
Oxazepam 429 313 430 O-902
*Oxazepam-D5 435 433 O-901
Temazepam 343 257 283 T-907
*Temazepam-D5 348 262 T-902
DCN-903020-35
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BENZODIAZEPINES IN SERUM OR PLASMA FOR HPLC ANALYSIS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE To 1 mL 1.0 mL of 100 mM phosphate buffer (pH 6.0) add internal standard(s)*. Add 1 mL of serum or plasma
Mix/vortex. Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. Centrifuge as appropriate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 mL/minute. 4. WASH COLUMN
1 x 2 mL D.I. H2O. 1 x 2 mL 20% acetonitrile in 100 mM phosphate buffer (pH 6.0). Dry column (10 minutes at > 10 inches Hg). 1 x 2 mL hexane. 5. ELUTE BENZODIAZEPINES 1 x 5 mL ethyl acetate containing 2 % ammonium hydroxide. collect eluate at 1 to 2 mL/minute. 6. DRY ELUATE Evaporate to dryness at < 40°C. 7. RECONSTITUTE Reconstitute in mobile phase. 8. QUANTITATE Inject sample onto HPLC.
Reference - UCT Internal Publication
DCN-903020-36
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CLONAZEPAM & 7-AMINOCLONAZEPAM IN URINE FOR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE: ß-GLUCURONIDASE HYDROLYSIS. To 2 mL of urine, add internal standard(s)* and 1 mL of ß-Glucuronidase solution. ß-Glucuronidase solution contains 5,000 F units/mL Patella vulgata in 100 mM acetate buffer (pH 5.0). Mix/vortex. Hydrolyze for 3 hours at 65°C. Cool before proceeding. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN
1 x 3 mL CH3OH. 1 x 3 mL deionized water. 1 x 1 mL 100 mM phosphate buffer (pH 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMP Load at 1 to 2 mL/ minute. 4. WASH COLUMN 1 x 2 mL deionized water. 1 x 2 mL 20% acetonitrile in 100 mM phosphate buffer (pH 6.0). Dry column (5 minutes at > 10 inches Hg). 1 x 2 mL hexane. 5. ELUTE CLONAZEPAM / 7-AMINOCLONAZEPAM
1 x 3 mL ethyl acetate with 2% NH4OH: Collect eluate at 1 to 2 mL/minute. NOTE: Prepare fresh daily. 6. DRY ELUATE Evaporate to dryness at < 40°C. 7. DERIVATIZE Add 50 µL ethyl acetate and 50 µL MTBSTFA (with 1% TBDMCS)****. Mix/vortex. React 20 minutes at 90°C. Remove from heat source to cool. NOTE: Do not evaporate MTBSTFA solution. 8. ANALYSIS Inject 1 to 2 µL sample. For MSD monitor the following ions:
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Compound Primary Ion** Secondary Tertiary Cerilliant# Clonazepam-TBDMS 372 374 326 C-907 7-Aminoclonazepam-TBDMS 342 344 399 A-915 Clonazepam-D4-TBDMS 376 378 377 C-905 7-Aminoclonazepam-D4-TBDMS 346 348 403 A-917 *Suggested internal standard for GC/MS: Clonazepam-D4, 7-aminoclonazepam-D4. **Quantitation ion ****Part # SMTBSTFA-1-1, 10, 25, 100
DCN-903020-37
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FLUNITRAZEPAM AND METABOLITES IN URINE FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN
Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE- ß-GLUCURONIDASE HYDROLYSIS To 2 mL of urine add internal standard(s)* and 1 mL of ß-glucuronidase solution. ß-glucuronidase solution contains 5,000 F units/mL Patella vulgata in 100 mM acetate buffer (pH=5.0). Mix/vortex. Hydrolyze for 3 hours at 65°C. Centrifuge for 10 minutes at 2000 rpm and discard pellet. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 mL/minute. 4. WASH COLUMN 1 x 3 mL D.I. H2O. 1 x 2 mL 20% acetonitrile in 100 mM phosphate buffer (pH 6.0). Dry column (5 minutes at > 10 inches Hg). 1 x 2 mL hexane. 5. ELUTE FLUNITRAZEPAM, 7-AMINOFLUNITRAZEPAM AND DESMETHYLFLUNITRAZEPAM 1 x 3 mL ethyl acetate with 2% NH4OH; Collect eluate at 1 to 2 mL/minute. Prepare fresh daily. 6. DRY ELUATE Evaporate to dryness at < 40°C. 7. DERIVATIZE Add 50 µL ethyl acetate and 50 µL MTBSTFA (with 1% TBDMCS)***. Overlay with N2 and cap. Mix/vortex. React 20 minutes at 70°C. Remove from heat source to cool. NOTE: Do not evaporate MTBSTFA solution. 8. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions:
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Compound Primary Ion**** Secondary Tertiary Cerilliant # Flunitrazepam-TBDMS 312 286 266 F-907 7-Aminoflunitrazepam-TBDMS 283 255 254 A-911 Desmethylflunitrazepam-TBDMS 356 357 310 D-918 *Oxazepam-D5 -TBDMS 462 464 463 O-901 * Suggested internal standard for GC/MS: D5-Oxazepam *** Part # SMTBSTFA-1-1,10, 25,100 **** Quantitation ion Reference - UCT Internal Publication
DCN-903020-38
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CLONAZEPAM / FLUNITRAZEPAM & METABOLITES IN BLOOD, PLASMA / SERUM AND URINE FOR LC/MS/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® CSBNZ EXTRACTION COLUMN Part #: CSBNZ203 February 3, 2009
1. PREPARE SAMPLE: To 1 mL of 100 mM phosphate buffer (pH 6) add internal standards*. Add 1 mL whole blood, Serum/Plasma or Urine. Add 3 mL of 100 mM phosphate buffer (pH 6). Vortex and centrifuge as appropriate.
2. CONDITION COLUMN: 1 x 3 mL CH3OH 1 x 3 mL 100 mM phosphate buffer (pH 6). Note: aspirate at < 3 inches Hg to prevent sorbent drying out.
3. APPLY SAMPLE: Load sample at 1-2 mL / minute.
4. WASH COLUMN: 1 x 3 mL of 5 % (v/v) acetonitrile in 100 mM phosphate buffer (pH6). Dry column (5 minutes at > 10 inches Hg). 1 x 3 mL of hexane. Dry column (5 minutes at > 10 inches Hg).
5. ELUTE CLONAZEPAM/ 7-AMINOCLONAZEPAM- FLUNITRAZEPAM/7-AMINOFLUNITRAZEPAM:
2 x 3 mL ethyl acetate / ammonium hydroxide (96: 4). Collect eluate at 1-2 mL /minute.
6. EVAPORATION: Evaporate eluates under a gentle stream of nitrogen < 40°. Dissolve residue in 50 μL CH3OH.
INSTRUMENT CONDITIONS:
Column: 150 x 2.1 mm (3 μm) Gold PFP (Thermofisher).
Mobile phase: Acetonitrile: 0.1% Formic acid (33: 67)
Flowrate: 0.35 mL / minute
Injection Volume: 5 μL
Column Temperature: ambient
Detector: API 2000 MS/MS.
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Compound MRM Transition Cerilliant #
7-Aminoclonazepam 286.1/121.1 A-915
*7-Aminoclonazepam-D4 290.2/121.1 A-917
Clonazepam 316.0/270.2 C-907
*Clonazepam-D4 320.1/270.4 C-905
7-Aminoflunitrazepam 284.2/135.0 A-912
*7-Aminoflunitrazepam-D7 291.3/138.2 A-917
Flunitrazepam 314.1/268.2 F-907
*Flunitrazepam-D7 321.1/275.2 F-915
Chromatogram of:
7- aminoclonazepam/ 7-aminoclonazepam-D4
7-aminoflunitrazepam/ 7-aminoflunitrazepam-D7
Clonazepam/ Clonazepam-D4
Flunitrazepam/ Flunitrazepam-D7
Recovery: > 90% (N=20) LOD: 1 ng/ mL
DCN-903020-39
XIC of +MRM (81 pairs): 309.1/281.2 amu from Sample 8 (50) of dec072007a.wiff (Turbo Spray) Max. 260.0 cps.
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5 7.0 7.5 8.0 8.5 9.0 9.5Time, min
0.0
5000.0
1.0e4
1.5e4
2.0e4
2.5e4
3.0e4
3.5e4
4.0e4
4.5e4
5.0e4
5.5e4
6.0e4
6.4e4
Inte
nsi
ty, c
ps
3.79 6.832.672.23 3.160.780.33
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SPE EXTRACTION OF THC-DELTA-9-CARBOXY METABOLITE FROM URINE
100 mg CLEAN SCREEN XCEL II Column
(Part # CSXCE2106 6 mL - 130 mg Cartridge) August 5, 2009
Sample Preparation
Hydrolysis of Urine Sample for THC-delta-9-COOH To 2 mL urine add appropriate internal standards prepared. Add 50 µL of 10 N NaOH. Heat for 15 minutes at 60-70 °C Add 50 µL 1:1 acetic acid: DI water. (pH should be 7.0+1.0) Add 200 µL pH 7.0 0.1M Phosphate buffer) ( The sample is ready to be extracted.)
Applying Sample to Column Load sample directly to column without any preconditioning. Pull sample through at a rate of 1-2 mL/ minute. Dry column thoroughly under vacuum (10 mm Hg) or positive pressure (~ 80-100 psi) for 2 minutes.
Wash Wash sample with 1-2 mL of Hexane. (Be sure no sample droplets remain on sides of column.) Dry column thoroughly under vacuum (10 mm Hg) or positive pressure (~ 80-100 psi) for a minimum of 10 minutes.
NOTE 1: (It is important to dry the column thoroughly before elution to achieve the highest recovery of THC-delta-9-COOH. Any residual moisture will slow down the drying of the elution solvents prior to derivatization for GC/MS analysis. Also, any residual moisture could reduce the reactivity of the derivatization agent resulting in low GC/MS sensitivity.)
Elution Elute samples with 1 mL ethyl acetate/ hexane/ acetic acid (49/49/2) Evaporate fraction to complete dryness under stream of dry air or nitrogen at ~ 35 °C.
GC/MS Analysis It is recommended to add 50 µL of Ethyl Acetate to 50 µL of derivatization agent and react at ~70 °C for 15 minutes. Inject 1-2 µL of cooled solution in the GC/MS system for analysis.
LC/MS Analysis Reconstitute in methanol or appropriate mobile phase.
GC/MS Derivatization Ions
Derivatizing Agent THC-delta-9-COOH (Cerilliant Part #T-006)
(D9 THC-delta-9-COOH) (Cerilliant Part #T-007)
BSTFA 371, 473, 488 (380, 479, 497)
MTBSTFA 413, 515, 572 (422, 524, 581)
DCN-905080-169
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CARBOXY- delta 9-THC (pKa = 4.5) IN URINE FOR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSTHC020 or CSDAU206 February 3, 2009
1. PREPARE SAMPLE - BASE HYDROLYSIS OF GLUCURONIDES To 2 mL of urine add internal standard* and 100 μL of 10 M NaOH. Mix/vortex. Hydrolyze for 20 minutes at 60°C. Cool before proceeding. Adjust sample pH to 3.0 with approx. 1.0 mL of glacial acetic acid. Check pH to insure that the pH value is ~ 3.0.
2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH.
1 x 3 mL D.I. H2O.
1 x 1 mL Acetate buffer (pH=3.0) NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 to 2 mL/minute. 4. WASH COLUMN 1 x 2 mL D.I. H2O.
1 x 2 mL 100 mM HCI/acetonitrile (95:5). Dry column (5-10 minutes at greater than 10 inches Hg/ Full Flow for Positive Pressure manifold). 1 x 200 μL hexane; Aspirate. (Additional step to remove any residual moisture.) 5. ELUTE CARBOXY THC 1 x 3 mL hexane/ethyl acetate (50:50). Collect eluate at 1 to 2 mL/minute. NOTE: Before proceeding, insure there are no water droplets at the bottom of the collection tube. This may increase drying time and decrease BSTFA derivatizing efficiency. 6. DRY ELUATE Evaporate to dryness at < 40°C. 7. DERIVATIZE Add 50 μL ethyl acetate and 50 μL BSTFA (with 1% TMCS). Mix/vortex. React 20 minutes at 70°C. Remove from heat source to cool. NOTE: Do not evaporate BSTFA. 8. QUANTITATE Inject 1 to 2 μL onto gas chromatograph. For MSD monitor the following ions: ANALYTE (TMS) Primary Ion** Secondary Tertiary Cerilliant # Carboxy-delta 9-THC-D3* 374 476 491 T-008 Carboxy-delta 9-THC-D9* 380 479 497 T-007 Carboxy-delta 9-THC 371 473 488 T-019
* Suggested internal standard for GC/MS: -Carboxy-delta 9-THC-D9
DCN-903020-40
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delta 9-THC (parent), delta 9-HYDROXY THC, CARBOXY- delta 9-THC IN WHOLE BLOOD FOR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSTHC020 or CSDAU206 February 3, 2009
1. PREPARE SAMPLE To 1-2 mL of whole blood add internal standards*. Mix/vortex. Add dopwise whilst vortexing, 1 mL of Ice Cold acetonitrile. Centrifuge and transfer acetonitrile to a clean tube. Adjust sample pH to 3.0 ± 0.5 with approx. 2.0 mL of 100mM Sodium Acetate buffer. (Check pH of buffer to insure that the pH value is ~ 3.0.)
2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL Acetate buffer (pH=3.0) NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying.
3. APPLY SAMPLE Load at 1 to 2 mL/minute. 4. WASH COLUMN 1 x 2 mL D.I. H2O. 1 x 2 mL 100 mM HCI/acetonitrile (95:5). Dry column (5-10 minutes at greater than 10 inches Hg/ Full Flow for Positive Pressure manifold). 1 x 200 μL hexane; Aspirate. (Additional step to remove any residual moisture. Could substitute 200 μL MeOH for hexane.) Optional: Dry column (5 minutes at greater than 10 inches Hg/ Full Flow for
Positive Pressure manifold). NOTE: The delta-9-THC (parent) will elute in hexane so special attention must be paid to
not use more than 200 μL hexane in the wash/ dry step. The 200 μL hexane wash step can be eliminated if the column is allowed to dry longer under vacuum or by positive pressure gas flow. 5. ELUTE THC (metabolites)
1 x 2 mL hexane (optional, contains delta-9-THC) 1 x 3 mL hexane/ethyl acetate (50:50). Collect eluate at 1 to 2 mL/minute. NOTE: Before proceeding, insure there are no water droplets at the bottom of the collection tube.
This may increase drying time and decrease BSTFA derivatizing agent efficiency.
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6. DRY ELUATE Evaporate to dryness at < 40°C. 7. DERIVATIZE Add 50 μL ethyl acetate and 50 μL BSTFA (with 1% TMCS). Mix/vortex. React 20 minutes at 70°C. Remove from heat source to cool. NOTE: Do not evaporate BSTFA.
8. QUANTITATE Inject 2 μL onto gas chromatograph. For MSD monitor the following ions: ANALYTE (TMS) Primary Ion / Secondary / Tertiary
Compound Primary ion Secondary Tertiary Cerilliant# Carboxy- delta 9-THC-D3 TMS* 374 476 491 T-008 Carboxy- delta 9-THC-D9-TMS* 380 479 497 T-007 Carboxy-delta 9-THC 371 473 488 T-018 delta 9-THC-D3-TMS* 374 389 T-003 delta 9-THC-TMS 371 386 T-005 Hydroxy- delta 9-THC-D3-TMS* 374 462 477 H-041 Hydroxy- delta 9-THC-TMS 371 459 474 H-027 (303, 315, 330, 343)** * Suggested internal standard for GC/MS: D9-Carboxy-delta 9-THC, D3-Hyroxy- delta 9-THC, D3-delta 9-THC ** Ions common to deuterated delta-9 THC and non-deuterated compounds.
DCN-903020-41
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delta 9-THC (parent), delta 9-HYDROXY THC, CARBOXY- delta 9-THC IN WHOLE BLOOD FOR GC/MS CONFIRMATIONS USING: 100 mg STYRE SCREEN® SSTHC EXTRACTION COLUMN Part #: SSTHC116 February 3, 2009
1. PREPARE SAMPLE:
To 1-2 mL whole blood add appropriate internal standards prepared in alcohol.
Add drop-wise 2 mL ice cold acetonitrile.*
Mix thoroughly and centrifuge.
Decant acetonitrile into a clean tube. Evaporate acetonitrile under a stream or air or nitrogen to ~ 200uL.
Add 2 mL distilled water (pH~6.0-7.0)
(The sample is ready to be extracted.)
*NOTE: The acetonitrile should be cold (recommended storage in freezer at <0 C just prior to use) and it should be added very slowly to ensure proper mixing of organic phase with the whole blood. If added too quickly, the blood could precipitate to fast possibly resulting in lower recoveries.
2. APPLY SAMPLE:
Load sample directly to column without any preconditioning.
3. WASH COLUMN:
Wash with 1 mL (84/15/1) Water/ Acetonitrile/ NH4OH.
Dry column thoroughly under vacuum (10 mm Hg) or positive pressure (~ 80-100 psi) for 10-15 minutes.
NOTE: (It is important to dry the column properly to achieve the highest recovery of all compounds. Any residual moisture will slow down the drying of the elution solvents prior to derivatization. Also, any residual moisture could reduce the reactivity of the derivatizing agent.)
4. ELUTE THC, THC-OH, THC-COOH
1 x 3 mL Hexane/ Ethyl Acetate/ Glacial Acetic Acid (49: 49:2)
Collect at 1-2 mL/ minute.
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5. DRY ELUATE:
Evaporate fraction(s) to complete dryness under stream of dry air or nitrogen at <40°C
6. DERIVITIZE Add 50 μL ethyl acetate, vortex mix Add 50 μL BSTFA (with 1% TMCS). or Add 50 μL MTBSTFA (with 1% TBMCS). Mix/vortex. React 20 minutes at 70°C. Remove from heat source to cool. NOTE: Do not evaporate BSTFA.
7. QUANTITATE Inject 2 μL onto gas chromatograph. For MSD monitor the following ions:
DERIVATIZATION PROCEDURE
Derivatizing Agent THC {T-005}** THC-OH {H-041}** THC-COOH {T-006}**
(D3 THC) {T-003}** (D3 THC-OH) {H-027}** (D9 THC-COOH) {T-007}**
BSTFA 371, 343, 386 371, 459, 474 371, 473, 488
(374, 346, 389) (374, 462, 477) (380, 479, 497)
MTBSTFA 371, 428, 345 413, 369, 501 413, 515, 572
(374, 431, 348) (416, 372, 504) (422, 524, 581)
* Suggested internal standard for GC/MS: D9-Carboxy-delta 9-THC, D3-Hyroxy- delta 9-THC, D3-delta 9-THC ** Ions common to deuterated delta-9 THC and non-deuterated compounds.
DCN-903020-42
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EXTRACTION OF ACID/ NEUTRAL AND BASIC DRUGS* AND METABOLITES FROM URINE USING XCEL I CARTRIDGE
130mg CLEAN SCREEN XCEL I Column Part #: CSXCE106 – 6 mL 130 mg Cartridge
May13, 2010
Sample Preparation To 1-2 mL urine add 0.5-1.0 mL of 0.1M Phosphate buffer (pH=6.0 + 0.5). Add appropriate volume and concentration internal standards.
Applying Sample to Column Load sample directly to column without any pre-conditioning.
- Pull sample through at a rate of 1-2 mL/ minute. - Apply pressure to column for ~1 minute [vacuum (10 mm Hg) or positive pressure (~ 80-100 psi)] to
make certain the entire sample and any residual is pulled through to waste.
Wash 1 (Acidic/ Neutral - Fraction -1)
Wash sample with 1 mL of 0.1M Acetic Acid.
- Apply pressure to column for ~1 minute [vacuum (10 mm Hg) or positive pressure (~ 80-100 psi)] to make certain the entire sample and any residual is pulled through to waste.
Wash sample with 1-2 mL Hexane to remove residual aqueous phase.
- Dry column thoroughly under vacuum (10 mm Hg) or positive pressure (~ 80-100 psi) for a minimum of ~5 minutes.
Elution 1 (Acidic/ Neutral Compounds – Fraction -1)
Elute samples with 1 mL Hexane: Ethyl Acetate (50/50).
- Acid/ Neutral Fraction 1 can be analyzed separately or combined with Basic Fraction 2 depending on analysis
Wash 2 (Basic Compounds – Fraction -2)
Wash sample with 1 mL of 2% acetic acid/ 98% methanol. (Note: As an option, the Wash 2 step can be omitted and proceed directly to Elution 2.)
- Dry column thoroughly under vacuum (10 mm Hg) or positive pressure (~ 80-100 psi) for a minimum of ~5 minutes.
NOTE 1: (If analyzing by GC/MS, it is important to dry the column thoroughly to achieve the highest recovery of all compounds. Any residual moisture will slow down the drying of the elution solvents prior to derivatization for GC/MS analysis. Also, any residual moisture could reduce the reactivity of the derivatization agent resulting in low GC/MS sensitivity.)
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EXTRACTION OF ACID/ NEUTRAL AND BASIC DRUGS* AND METABOLITES FROM URINE USING XCEL I CARTRIDGE
130mg CLEAN SCREEN XCEL I Column Part #: CSXCE106 – 6 mL 130 mg Cartridge
May13, 2010
Elution 2 (Basic Compound Fraction -2)
Elute samples with 1 mL Methylene Chloride/ Iso-propanol/ Ammonium Hydroxide (78/20/2).
Evaporate fraction to complete dryness under stream of dry air or nitrogen at ~ 30-40 °C.
GC/MS Analysis
It is recommended to add 50 µL of Ethyl Acetate to 50 µL of derivatization agent and react at ~70 °C
for 30 minutes. Inject 1-2 µL of cooled (50:50) solution in the GC/MS system for analysis.
LC/MS Analysis
Reconstitute in methanol or appropriate mobile phase.
Representative ACID/ NEUTRAL and BASIC Analytes Extracted**
Amphetamine/ Sympaths (12) Opiates (12)* Methadone/EDDP Meperidine/Normeperidine Tramadol/Nortramadol Cocaine/BE/EME TCA’s(7) Fentanyl/ Norfentanyl Carisoprodol/ Meprobamate Barbiturates (7) Carbemazepine Ibuprofen
*Sample must be hydrolyzed prior to extraction to determine total opiates.
** To extract the benzodiazepine group at higher recovery: a.) The Wash -2 step (i.e. 2% Acetic acid/ 98 % Methanol, must be eliminated and b.) The Elution 2 solvent must be changed to 98% Ethyl Acetate/ 2% Ammonium Hydroxide.
DCN-013105-166
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BARBITURATES IN URINE FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE To 2 mL of urine add internal standard(s)* and 1 mL of 100 mM phosphate buffer (pH 5.0). Mix/vortex. Sample pH should be 5.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH 5.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 to 2 mL/minute. 4. WASH COLUMN 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM acetic acid. Dry column (5 minutes at > 10 inches Hg). 1 x 2 mL hexane. 5. ELUTE BARBITURATES
1 x 3 mL hexane/ethyl acetate (50:50); Collect eluate at 1 to 2 mL / minute.
6. DRY ELUATE Evaporate to dryness at < 40°C. Reconstitute with 100 µL ethyl acetate. OPTIONAL DERIVATIZATION Add 25-50 µL of 0.2 M TMPAH****, Reaction occurs in injection port 7. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions:
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UNDERIVATIZED Drug Primary Ion** Secondary Ion Tertiary Ion Cerilliant # Amobarbital: 156 141 157 A-020 Butabarbital: 156 141 157 B-006 Butalbital: 168 167 181 B-024 Hexobarbital* 221 157 236 H-013 Pentobarbital 156 141 197 P-010 Phenobarbital 204 232 117 P-008 Secobarbital 168 167 195 S-002 Thiopental: 172 157 173
DERIVATIZED Drug Primary Ion** Secondary Ion Tertiary Ion Cerilliant # Butalbital-D5 201 214 B-005 Butalbital 196 195 209 B-024 Amobarbital 169 184 185 A-020 Pentobarbital 169 184 112 P-010 13C4-Secobarbital 200 185 Secobarbital 196 195 181 S-002 Phenobarbital-D5l 237 151 P-017/P-018 Phenobarbital 232 146 175 P-008 **Target ions in bold
* Suggested internal standard for GC/MS: Hexobarbital or a Deuterated Barbiturate analog. ** Quantitation Ion **** Part # STMPAH-0-1 1, 10, 25, 100
DCN-903020-43
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BARBITURATES IN BLOOD, PLASMA/SERUM, URINE, AND TISSUE FOR GC OR GCMS CONFIRMATION USING: 80 mg CLEAN SCREEN® REDUCED SOLVENT VOLUME EXTRACTION COLUMN Part #: ZSDAUA08 without Tips or ZCDAUA08 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE To 1 mL of 100 mM phosphate buffer (pH =6.0) add internal standards*. Mix/vortex and add 1 mL of blood, plasma/serum, urine or 1 g (1:4) tissue homogenate.
Mix/vortex. Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. Centrifuge as appropriate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 0.5 mL CH3OH. 1 x 0.5 mL D.I. H2O. 1 x 0.25 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 to 2 mL/minute. 4. WASH COLUMN 1 x 0.5 mL D.I. H2O; Aspirate. 1 x 0.5 mL 100 mM acetic acid; Aspirate. Dry column (5 minutes at > 10 inches Hg). 1 x 0.1 mL hexane; Aspirate. 5. ELUTE BARBITURATES 1.5 mL hexane/ethyl acetate (50:50). Collect at 1-2 mL/ minute 6. DRY ELUATE Evaporate to dryness at < 40°C. Reconstitute with 100 µL ethyl acetate. OPTIONAL DERIVATIZATION Add 25 µL of 0.2 M TMPAH****, Reaction occurs in injection port 7. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions:
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UNDERIVATIZED Drug Primary Ion** Secondary Ion Tertiary Ion Cerilliant # Amobarbital: 156 141 157 A-020 Butabarbital: 156 141 157 B-006 Butalbital: 168 167 181 B-024 Hexobarbital* 221 157 236 H-013 Pentobarbital 156 141 197 P-010 Phenobarbital 204 232 117 P-008 Secobarbital 168 167 195 S-002 Thiopental: 172 157 173
DERIVATIZED Drug Primary Ion** Secondary Ion Tertiary Ion Cerilliant # Butalbital-D5 201 214 B-005 Butalbital 196 195 209 B-024 Amobarbital 169 184 185 A-020 Pentobarbital 169 184 112 P-010 13C4-Secobarbital 200 185 Secobarbital 196 195 181 S-002 Phenobarbital-D5l 237 151 P-017/P-018 Phenobarbital 232 146 175 P-008 * Suggested internal standard for GC/MS: Hexobarbital or a Deuterated Barbiturate analog. ** Quantitation Ion Target ions in bold **** Part # STMPAH-0-1, 10, 25, 100
DCN-903020-44
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BETA AGONISTS IN URINE FOR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE:
To 1 mL of 100 mM Acetate Buffer (pH 4.5) add 1 mL of Urine. Add 2 mL of of 100 mM Acetate Buffer (pH 4.5). Mix/ vortex. Centrifuge as appropriate.
2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 3 mL 100 mM Acetate Buffer (pH 4.7). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying.
3. APPLY SAMPLE Load at 1 to 2 mL/ minute.
4. WASH COLUMN 2 X 1 mL Acetone/ Methanol (1:1) aspirate. Dry column (5 minutes at > 10 inches Hg).
5. ELUTE BETA AGONISTS 1 x 1 mL Dichloromethane/ Isopropanol and Ammonium Hydroxide (78:20:2). Collect the eluate at 1-2 mL/ minute (or gravity). NOTE: Prepare elution solvent fresh daily. Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12).
6. DRY ELUATE Evaporate to dryness at < 40°C.
7. DERIVATIZE Derivatization Solution: Methaneboronic acid at 5 mg/mL prepared in dry ethyl acetate (use molecular sieve). Store this solution at –20°C (freezer conditions) until use. Reaction Mixture: Add 100 µL of the Methaneboronic acid solution (see above). Mix/vortex. React 15 minutes at 70°C. Remove from heat source to cool. NOTE: Do not evaporate this solution.
8. ANALYSIS Inject 1 to 2 µL sample (derivatized solution).
DCN-903020-45
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CARISOPRODOL AND MEPROBAMATE IN BLOOD, PLASMA/SERUM, URINE, TISSUE FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips
February 3, 2009
1. PREPARE SAMPLE
To 1 mL of 100 mM phosphate buffer (pH= 3) add internal standard*. Add 1 mL blood, plasma serum, urine, or 1 g (1:4) tissue homogenate. Add 2 mL of 100 mM phosphate buffer (pH= 3). Mix/ vortex Centrifuge as appropriate.
2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 3.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 to 2 mL/ minute. 4. WASH COLUMN 1 x 4 mL deionized water. 1 x 2 mL 100 mM HCl. Dry column (5 minutes at > 10 inches Hg). 1 x 3 mL hexane. 5. ELUTE CARISOPRODOL / MEPROBAMATE 1 x 3 mL CH2Cl2/IPA/NH4OH (78:20:2); Collect eluate at 1 to 2 mL/minute. 6. DRY ELUATE Evaporate to dryness at < 40°C. 7. QUANTITATE Reconstitute with 100 µL ethyl acetate. Inject 1 to 2 µL sample on gas chromatograph. For MSD monitor the following ions: Compound Primary Ion*** Secondary Tertiary Cerilliant # Carisoprodol 158 104 245 C-007 Meprobamate 83 114 144 M-039 *Hexobarbital 221 157 81 H-013 *Meprobamate-D7 90 121 151 M-131 *Suggested internal standard for GC/MS: Hexobarbital, or Meprobamate-D7 ***Quantitation ion
DCN-903020-46
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GABAPENTIN IN BLOOD, PLASMA/ SERUM FOR GC OR GC/MS ANALYSIS USING: 100 mg CLEAN-UP® C18 EXTRACTION COLUMN Part #: CUC18111 February 3, 2009
1. PREPARE SAMPLE To 500 µL of 20% acetic acid add internal standard*. Mix/vortex. Add 500 µL of blood, plasma/ serum. Mix/ vortex. Centrifuge as appriate
2. CONDITION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM HCL.
NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 to mL/minute. 4. WASH COLUMN 1 x 3 mL D.l. H2O. 1 x 3 mL ethyl acetate. 1 x 3 mL hexane. Dry column (5 minutes at > 10 inches Hg) or until column is dry.
5. ELUTION 1 x 1 mL 2% NH4OH in CH3OH. 6. DRY ELUATE Evaporate to dryness at < 40°C.
7. DERIVATIZATION Add 50 μL of ethyl acetate and 50 μL of BSTFA (1 % TCMS) or
Add 50 µL of MTBSTFA + 1 % t-BDMCS** and 50 µL ethyl acetate. Cap and heat at 70°C for 30 minutes. Remove and allow to cool. 8. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. Compound Primary Secondary Tertiary Ceriliant # Gabapentin-TMS 210 225 182 G-007 *Gabapentin-D10-TMS 220 235 192 B-130315-10 * INTERNAL STANDARD: 1-aminomethyl-1-cycloheptyl acetic acid (FID): Gabapentin-D10 (GC-MS) ** Part # SMTBSTFA-1-1, 10, 25,100 Reference: Carl E. Wolf ll, Joseph Sady, and Alphonse Pokalis Determination of Gabapentin in Serum using Solid Phase Extraction and Gas-Liquid Chromatography. Journal of Analytical Toxicology 20:498-501 (October 1996)
DCN-903020-47
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49
GABAPENTIN IN WHOLE BLOOD, SERUM /PLASMA LC/MS/MS CONFIRMATIONS USING: 200 mg CSDAU EXTRACTION COLUMN March 30, 2009
1. PREPARE SAMPLE:
To 0.2-0.5 mL of sample add 1 mL of acetone (dropwise) whilst vortexing
Add internal standard*
Vortex mix and centrifuge as appropriate
Transfer organic phase to clean tube
Evaporate to dryness
Add 3 mL of 100 mM HCl
Vortex mix and centrifuge as appropriate
2. CONDITION COLUMN:
1 x 3 mL CH3OH
1 x 3 mL D.I. H2O
1 x 1 mL 100 mM HCl
Note: aspirate at < 3 inches Hg to prevent sorbent drying out.
3. APPLY SAMPLE:
Load sample at 1-2 mL / minute.
4. WASH COLUMN:
1 x 3 mL D.I. H2O
1 x 3 mL ethyl acetate
1 x 3 mL hexane
Dry column (10 minutes at > 10 inches Hg).
5. ELUTE GABAPENTIN
1 x 3 mL CH3OH containing 2% NH4OH
Collect eluate at 1-2 mL /minute.
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50
6. EVAPORATION:
Evaporate eluates under a gentle stream of nitrogen < 40°.
Dissolve residue in 100 μL CH3OH.
INSTRUMENT CONDITIONS:
Column: 50 x 2.1 mm (3 μm) Selectra® Phenyl (UCT, LLC)
Mobile phase: Time Acetonitrile 0.1% Formic Acid
0 10 90
5 90 10
5.5 10 90
10 10 90
Flowrate: 0.2 mL/ minute
Injection Volume: 5 μL
Column Temperature: ambient
Detector: API 2000 MS/MS
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Chromatogram of Gabapentin (top) and Aminocyclohexanepropionic acid (lower)
Compound MRM Transition
Gabapentin 172.2/ 137
*Gabapentin-D10 182.2/147
* Aminocyclohexane- 172.2/ 126 propionic acid
Recovery (approx 70%)
LOD= 50 ng/ mL
DCN-900330-145
XIC of +MRM (4 pairs): 172.2/126.0 amu from Sample 2 (gabastd2) of march122009gabastds3a.wiff (Turbo Spray) Max. 2390.0 cps.
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5 7.0 7.5 8.0 8.5 9.0 9.5Time, min
0
200
400
600
800
1000
1200
1400
1600
1800
2000
2200
2390
Inte
nsity
, cp
s
1.15
1.40
XIC of +MRM (4 pairs): 172.2/137.0 amu from Sample 2 (gabastd2) of march122009gabastds3a.wiff (Turbo Spray) Max. 2647.5 cps.
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5 7.0 7.5 8.0 8.5 9.0 9.5Time, min
0
500
1000
1500
2000
25002648
Inte
nsity
, cp
s
1.14
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METHYLMALONIC ACID FROM SERUM OR PLASMA FOR GC/MS ANALYSIS USING: 500 mg CLEAN-UP® QAX EXTRACTION COLUMN Part #: CUQAX15Z February 3, 2009
1. PREPARE SAMPLE
Add 100 µL of internal standard D3-MMA and 1 mL of acetonitrile to 1 mL of plasma or serum. Vortex for 20 sec. Centrifuge for 5 min at 2000 rpm. 2. CONDITION CLEAN UP® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 3. APPLY SAMPLE Decant supernatant onto SPE column. 4. WASH COLUMN 1 x 10 mL of D.I. H2O. Dry with vacuum for 3 min. 1 x 5 mL of CH3OH. Dry with vacuum for 3 min. 1 x 2 mL of MTBE*. Dry with vacuum for 3 min. 5. ELUTE METHYLMALONIC ACID 1 x 5 mL of 3% formic acid in MTBE, collect at 1 to 2 mL/min. 6. DRY ELUATE Dry under a stream of nitrogen at < 35°C. 7. DERIVATIZE Reconstitute with 25 µL of MSTFA + 1% TMCS** and 25 µL ethyl acetate. Heat for 20 min at 60°C. 8. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. * MTBE: methyl-tert-butyl ether ** Part # SMSTFA-1-1, 10, 25,100 Compliments of Mark M. Kusmin and Gabor Kormaromy-Hiller ARUP LABORATORIES
DCN-903020-48
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NICOTINE AND COTININE IN URINE OR SERUM FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips
February 3, 2009
1. PREPARE SAMPLE To 2 mL of 100 mM phosphate buffer (pH =6.0) add internal standards*. Add 2 mL of urine or serum.. Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphateMix/vortex. Centrifuge as appropriate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 mL/minute. 4. WASH COLUMN 1 x 3 mL D.I. H2O. 1 x 2 mL 200 mM HCl. Dry column (5 minutes at > 10 inches Hg). 1 x 2 mL Hexane. 5. WASH COLUMN Remove rack of collection tubes to rewash columns. 1 x 3 mL CH3OH. Dry column, (5 minutes at > 10 inches Hg). 6. ELUTE COTININE AND NICOTINE Replace rack of collection tubes. 1 x 3 mL CH2Cl2/IPA/NH4OH (78:20:2); Collect eluate at 1 mL/minute. NOTE: Prepare elution solvent daily. Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12). 7. CONCENTRATE Evaporate to dryness at < 40 °C. Take care not to over-heat or over evaporate. Reconstitute with 100 µL ethyl acetate. 8. QUANTITATE Inject 1 to 2 µL onto chromatograph. Monitor the following ions (GC/MS): Compound Primary ion** Secondary Tertiary Cerilliant# Nicotine 84 133 162 N-008 *Nicotine-D4 88 137 166 N-048 Cotinine 98 119 176 C-016 *Cotine-D3 101 122 179 C-017 ** Quantitation Ion SOURCE - UCT Internal Publication
DCN-903020-49
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THERAPEUTIC AND ABUSED DRUGS IN BLOOD, PLASMA/SERUM AND URINE FOR ACID/NEUTRAL AND BASIC DRUGS FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips
February 3, 2009
1. PREPARE SAMPLE Urine To 1 mL of 100 mM phosphate buffer (pH=6.0) add internal standards*. Add 2 mL of urine. Mix/vortex. Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate Centrifuge as appropriate.
Blood, Plasma or Serum To 1 mL of 100 mM phosphate buffer ( pH =6.0 ) add internal standards* Add 1 mL of sample and 4 mL D.I. H2O . Mix/vortex and let stand 5 minutes. Centrifuge for 10 minutes at 2000 rpm and discard pellet. Add 2 mL 100 mM phosphate buffer (pH 6.0). Mix/vortex. Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with100 mM monobasic or dibasic sodium phosphate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN
1 x 3 mL CH3OH.
1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying.
3. APPLY SAMPLE
Load at 1 to 2 mL/minute. 4. WASH COLUMN
1 x 3 mL D.I. H2O.
1 x 1 mL 100 mM acetic acid. Dry column (5 minutes at > 10 inches Hg). 1 x 2 mL hexane. 5. ELUTE ACIDIC AND NEUTRAL DRUGS (FRACTION 1)
1 x 3 mL hexane/ethyl acetate (50:50); Collect eluate at < 2 mL/minute. 6. DRY ELUATE
Evaporate to dryness at < 40°C. Reconstitute with 100 µL ethyl acetate. 7. QUANTITATE ACIDIC AND NEUTRAL DRUGS
Inject 1 to 2 µL onto gas chromatograph. 8. WASH COLUMN
1 x 3 mL CH3OH; Aspirate.
Dry column (5 minutes at > 10 inches Hg).
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9. ELUTE BASIC DRUGS (FRACTION 2)
1 x 3 mL CH2Cl2/IPA/NH4OH (78:20:2).
Collect eluate at 1 to 2 mL/minute. NOTE: Prepare elution solvent fresh daily.
Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12).
10. DRY ELUATE
Evaporate to dryness at < 40°C using a TurboVap® or equivalent evaporator. Take care not to overheat or over evaporate. Certain compounds are heat labile, such as the amphetamines and phencyclidine. Reconstitute with 100 µL ethyl acetate.
11. QUANTITATE Basic Drugs
Inject 1 to 2 µL onto gas chromatograph. NOTES: (1) Fraction 1 (Acid Neutrals) and Fraction 2 (Bases) can be combined together. (2) A keeper solvent such as DMF can be used to prevent the volatilization of amphetamines and phencyclidine. Use 30-50 µL of high purity DMF in the sample (Fraction 2) before evaporation. (3) A 1% HCl in CH3OH solution has been used to prevent volatization by the formation of the hydrochloric salt of the drugs. Evaporate fraction 2 to approximately 100 µL, then add 1 drop of the solution. Continue to evaporate to dryness.
SOURCE: UCT Internal Publication
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56
CLEAN SCREEN® DAU Forensic Applications
Data Provided By:
City of Philadelphia, Department of Public Health Office of the Medical Examiner 321 University Avenue Philadelphia, Pennsylvania 19104 Contact: Frank Caputo, Analytical Chemist II (215) 8237464 The following are some of the many compounds that have been extracted from forensic samples with the CLEAN SCREEN® DAU bonded silica extraction cartridge (Part #: CSDAU303):
I. ACIDIC / NEUTRAL DRUG FRACTION (A) Acetaminophen Clonazepam Nordiazepam Barbiturates Cotinine Phenytoin Benzoic acid Diazepam Primidone Caffeine Glutethimide and metabolite Salicylic acid Carbamazepine Ibuprofen Theophylline Carisoprodol Meprobamate Thiopental Chlorpropamide Methyl salicylate
II. BASIC DRUG FRACTION (B) Amantadine Dihydrocodeine Methylphenidate Amitriptyline and metabolite Dihehydramine Methyprylon and metabolites Amphetamine Doxepin and metabolite Morphine Benzocaine Ephedrine Nicotine Benzoylecgonine Fluoxetine Oxycodone Benztropine Imipramine and metabolite Pentazocine Bromodiphenhydramine Ketamine Phencyclidine Chlordiazepoxide Lidapine Phenethylamine Chloroquine Loxapine Phentermine Chlorpheniramine Meperidine Phenylpropanolamine Chlorpromazine Methadone and metabolite Procaine Cocaine and metabolite Methamphetamine Propoxyphene and metabolite
Codeine Methyl -aminobenzoate Propylparaben
Cresol Methyl benzoate Tranylcypromine Dextromethorphan Methyl ecgonine Trifluoperazine Dextrorphan Methylparaben Trimipramine Thioridazine Trazodone
DCN-903020-50
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WARFARIN IN WHOLE BLOOD: MANUAL METHOD FOR GC-MS OR LC CONFIRMATIONS USING: 200 mg CLEAN-UP® C-30 EXTRACTION COLUMN Part #: CEC30203 February 3, 2009
1. PREPARE SAMPLE To 9 mL of 100 mM phosphate buffer (pH= 6.0) add internal standard. Add 1mL of whole blood) and Mix/vortex.
Sample pH should be 6.0 + 0.5. Adjust pH accordingly with 0.1 M monobasic or dibasic sodium phosphate. Centrifuge as appropriate 2. CONDITION EXTRACTION COLUMN 1 x 3 mL CH3OH
1 x 3 mL DI H2
1 x 3 mL 100 mM phosphate buffer, (pH=6.0) aspirate. NOTE: Aspirate at < 3 inches. Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1-2 mL/min. 4. WASH COLUMN Add 1 x 3 mL of phosphate buffer (0.1 M pH 6) Dry under full vacuum for 10 mins Add 1 x 3 mL of Hexane Dry under full vacuum for 10 mins 5. ELUTE WARFARIN: Add 2 x 3 mL of methanol/ ethyl acetate (12:88) Note: Prepare elution solvent daily. 6. Collect eluates at approx 1-2 mL/minute 7. Dry samples Evaporate to dryness at <40°C Add 50 µL of ethyl acetate. Add 50 μL of TMAH, and vortex. React at for 1 hour at 70˚C. Cool and inject 1-2 μL onto GC-MS Monitor the following ions: Compound Primary Secondary Tertiary Cerilliant # Warfarin 279 322 280 W-003 *p-chlorowarfarin 313 315 356
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WARFARIN CHROMATOGRAM
GC-MS (methylation)
DCN-903020-51
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59
CAFFEINE, THEOPHYLLINE AND THEOBROMINE IN BLOOD, PLASMA/SERUM, AND URINE USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 LC-PDA February 3, 2009
1. PREPARE SAMPLE: To 1 mL of 100 mM acetic acid add internal standard.*
Add 1 mL Blood, Serum/ Plasma, or Urine. Add 2 mL of 100 mM acetic acid. Vortex and centrifuge as appropriate.
2. CONDITION CLEAN SCREEN® COLUMN: 1 x 3 mL CH3OH 1 x 3 mL D.I. H2O 1 x 1 mL 100 mM acetic acid. Note: aspirate at < 3 inches Hg to prevent sorbent drying out
3. APPLY SAMPLE: Load sample at 1-2 mL / minute.
4. WASH COLUMN: 1 x 3 mL DI H2O
1 x 3 mL 100 mM acetic acid. Dry column (5 minutes at > 10 inches Hg).
5. ELUTE CAFFEINE/THEOBROMINE/THEOPHYLLINE: 1 x 3 mL ethyl acetate : methanol (90: 10)
Collect eluate at 1-2 mL / minute.
6. EVAPORATION: Combine eluates
Evaporate eluates under a gentle stream of nitrogen < 40°C.
7. RECONSITITUE sample in 1000 μL of 0.1 % Formic acid (aq). Inject 20 μL.
INSTRUMENT CONDITIONS:
Column: 150 x 2.1 mm (3 μm) Gold C18 (Thermofisher)
Mobile phase: Acetonitrile: 0.1% Formic acid aqueous (10:90).
Flowrate: 0.1 mL/ minute
Column Temperature: ambient
Detector: Diode Array (200-350 nm)
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CHROMATOGRAM OF SHOWING:
Compound Cerilliant #
Theobromine : 7.5 minutes T--013
Theophylline : 9.5 minutes IMPC-051-01
Caffeine: 14.5 minutes C-0151
*8-Chlorotheophylline: 18.0 minutes
Recovery: > 90% (N=10)
LOD: 1 μg/ mL
DCN-903020-52
TWC of DAD Spectral Data: from Sample 13 (xanthine) of jan022008.wiff Max. 4.8e4 mAU.
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23Time, min
0.0
2000.0
4000.0
6000.0
8000.0
1.0e4
1.2e4
1.4e4
1.6e4
1.8e4
2.0e4
2.2e4
2.4e4
2.6e4
2.8e4
3.0e4
3.2e4
3.4e4
3.6e4
3.8e4
4.0e4
4.2e4
4.4e4
4.6e4
4.8e4
Abs
orba
nce
, mA
U
9.54
14.75
18.46
7.52
5.74
4.81
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EXTRACTION OF BASIC DRUGS AND METABOLITES FROM URINE SPE CARTRIDGES
100mg Clean Screen Xcel l Column Part #: CSXCE106 6 mL - 100 mg Cartridge Part #: CSXCE103 3 mL - 100 mg Cartridge
September 9, 2009
SAMPLE PREPARATION To 1-5 mL urine add 1-2 mL of 0.1M Phosphate buffer (pH=6.0 + 0.5). Add appropriate volume and concentration internal standards. Note 1: See alternate hydrolysis step for opiate samples. (Alternate Hydrolysis Step) To 1-5 mL urine sample 1-2 mL of acetate buffer (pH= 5.0) containing 5,000 units/mL ß-glucuronidase. Optionally, add 500 µL of acetate buffer and 25 µL of concentrated ß-glucuronidase. Vortex and heat for 1-2 hours at 65 °C. (Hydroxylamine can be added to sample if oxime derivative is preferred.) Allow sample to cool. Do not adjust pH- sample is ready to be added to extraction column. APPLYING SAMPLE TO COLUMN Load sample directly to column without any preconditioning.Pull sample through at a rate of 1-2 mL/ minute. Dry column thoroughly under vacuum (10 mm Hg) or positive pressure (~ 80-100 psi) for 1 minute. WASH Wash sample with 1-2 mL of 2% acetic acid/ 98% methanol. Dry column thoroughly under vacuum (10 mm Hg) or positive pressure (~ 80-100 psi) for a minimum of 5 minutes.
NOTE 2: (It is important to dry the column thoroughly to achieve the highest recovery of all compounds. Any residual moisture will slow down the drying of the elution solvents prior to derivatization for GC/MS analysis. Also, any residual moisture could reduce the reactivity of the derivatization agent resulting in low GC/MS sensitivity.) ELUTION Elute samples with 1-2 mL Methylene Chloride/ Iso-propanol/ Ammonium Hydroxide (78/20/2). Evaporate fraction to complete dryness under stream of dry air or nitrogen at ~ 30-40 °C. GC/MS Analysis It is recommended to add 50 µL of Ethyl Acetate to 50 µL of derivatization agent and react at ~70 °C for 30 minutes. Inject 1-2 µL of cooled (50:50) solution in the GC/MS system for analysis. LC/MS Analysis Reconstitute in methanol or appropriate mobile phase. Representative Analytes Extracted Amph/Methamph MDMA/MDA/MDEA Opiates (7) Methadone/EDDP Sympathomimetics Meperidine/Normeperidine Phencyclidine Cocaine/Benzoylecgonine Tricyclic Antidepressants (7) Cyclobenzaprine Fentanyl/ Norfent Sertraline Tramadol/Nortramodol Diphenhydramine Citalopram Clonidine
DCN-909090-166
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EXTRACTION OF BASIC DRUGS AND METABOLITES FROM URINE USING SPE WELL PLATES
(Part #: WSH96XCE11 - 130 mg 96 well plate) (Part #: WSH48XCE11 - 130 mg 48 well plate)
July 1, 2009
Sample Preparation To 1-2 mL urine add 500 µL of pH=6.0 + 0.5 0.1M Phosphate buffer. Add appropriate volume and concentration internal standards. (Note 1: See alternate hydrolysis step for opiate samples).
(Alternate Hydrolysis Step) To 1-2 mL urine sample add 500 µL of acetate buffer (pH= 5.0) containing 5,000 units/mL -glucuronidase. Optionally, add 500 µL of acetate buffer and 25 uL of concentrated -glucuronidase. Vortex and heat for 1-2 hours at 65 °C. (Hydroxylamine can be added to sample if oxime derivative is preferred.) Allow sample to cool.
Do not adjust pH- sample is ready to be added to extraction column.
Applying Sample to Column Load sample directly to column without any preconditioning. Pull sample through at a rate of 1-2 mL/ minute. Dry column thoroughly under vacuum (10 mm Hg) or positive pressure (~ 80-100 psi) for 1 minute.
Wash Wash sample with 1 mL of 2% acetic acid/ 98% methanol. Dry column thoroughly under vacuum (10 mm Hg) or positive pressure (~ 80-100 psi) for a minimum of 5 minutes.
NOTE 2: (It is important to dry the column thoroughly to achieve the highest recovery of all compounds. Any residual moisture will slow down the drying of the elution solvents prior to derivatization for GC/MS analysis. Also, any residual moisture could reduce the reactivity of the derivatization agent resulting in low GC/MS sensitivity.)
Elution Elute samples with 1 mL Methylene Chloride/ Iso-propanol/ Ammonium Hydroxide (78/20/2) Evaporate fraction to complete dryness under stream of dry air or nitrogen at ~ 30-40 °C.
GC/MS Analysis It is recommended to add 50 µL of Ethyl Acetate to 50 µL of derivatization agent and react at ~70 °C for 30 minutes. Inject 1-2 µL of cooled (50:50) solution in the GC/MS system for analysis.
LC/MS Analysis Reconstitute in methanol or appropriate mobile phase.
Representative Analytes Extracted
Amph/Methamph MDMA/MDA/MDEA Opiates (7) Methadone/EDDP Sympathomimetics Meperidine/Normeperidine Phencyclidine Cocaine/Benzoylecgonine Tricyclic Antidepressants (7) Cyclobenzaprine Fentanyl/ Norfent Sertraline Tramadol/Nortramodol Diphenhydramine Citalopram Clonidine
DCN-900170-166
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63
BASIC DRUGS FOR HPLC ANALYSIS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips
February 3, 2009
1. PREPARE SAMPLE To 1 m of 100 mM phosphate buffer (pH= 6.0) add internal standards*. Mix/vortex. Add 1-5 mL of urine or 1 mL of blood, plasma/serum or 1g (1: 4) tissue homogenate.
Mix/vortex. Add 2 mL of 100 mM phosphate buffer (pH 6.0) Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. Centrifuge as appropriate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 to 2 mL/minute. 4. WASH COLUMN 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM acetic acid. 1 x 3 mL methanol. Dry column (5 minutes at > 10 inches Hg). 5. ELUTE BASES 1 x 2 mL CH3OH/NH4OH (98:2). Collect eluate at 1 to 2 mL/minute. NOTE: Prepare elution solvent daily. 6. EXTRACT
To eluate add 2.0 mL D.I. H2O and 500 µL methylene chloride. Mix/vortex. Centrifuge at 2,000 RPM for 10 minutes. Transfer organic lower layer to a clean test tube. 7. EVAPORATE Evaporate to dryness at < 40°C. 8. QUANTITATE Reconstitute in mobile phase and inject onto the HPLC. SOURCE: UCT Internal Publication
DCN-903020-53
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BETA BLOCKERS IN BLOOD, URINE FOR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE To 1 mL of Acetate buffer (pH=4.5) add 1 mL of blood or urine. Add 2 mL of Acetate buffer (pH 4.5). Mix/vortex Centrifuge as appropriate.
2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 3 mL 100 mM Acetate Buffer (pH= 4.5). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying.
3. APPLY SAMPLE Load at 1 to 2 mL/ minute. 4. WASH COLUMN 2 x 1 mL Acetone/ Methanol (1:1) aspirate. Dry column (5 minutes at > 10 inches Hg). 5. ELUTE BETA BLOCKERS 1 x 1 mL Dichloromethane/ Isopropanol/Ammonium Hydroxide (78:20:2). Collect the eluate by gravity. NOTE: Prepare elution solvent fresh daily. Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12). 6. DRY ELUATE Evaporate to dryness at < 40°C. 7. DERIVATIZE Derivatization Solution: Methaneboronic acid at 5 mg/mL
prepared in dry ethyl acetate (use molecular sieve). Store this solution at –20°C (freezer conditions) until use.
Reaction Mixture Add 100 µL of the Methaneboronic acid solution
(see above). Mix/vortex. React 15 minutes at 70°C. Remove from heat source to
cool. NOTE: Do not evaporate this solution. 8. ANALYSIS Inject 1 to 2 µL sample.
Reference:
Branum G, Sweeney S, Palmeri A, Haines L and Huber C The Feasibility of the Detection and Quantitation of ß Adrenergic Blockers By Solid Phase Extraction and Subsequent Derivatization with Methaneboronic Acid. Journal of Analytical Toxicology 22: 135-141 (1998
DCN-903020-54
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65
TRICYCLIC ANTIDEPRESSANTS IN SERUM AND PLASMA FOR HPLC USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE To 2 mL of 100 mM phosphate buffer (pH= 6.0) add internal standard*. Add 1 mL of plasma/serum. Mix/vortex. Centrifuge for 10 minutes at 2000 rpm and discard pellet Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 mL/minute. 4. WASH COLUMN 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM acetic acid. 1 x 3 mL CH3OH. Dry column (5 minutes at > 10 inches Hg). 5. ELUTE 1 x 3 mL CH2Cl2/IPA/NH4OH (78:20:2). Collect eluate at 1 mL/minute or use gravity flow.
NOTE: Prepare elution solvent fresh daily. Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12). 6. DRY ELUATE Evaporate to dryness at < 40°C. 7. QUANTITATE Reconstitute with 200 µL ethyl acetate/D.I. H2O (1:3). Mix/vortex vigorously for 30 seconds. Inject 100 µL onto HPLC.
HPLC CONDITIONS HPLC COLUMN – Propylcyano, Endcapped 4.6 mm x 150 mm, 5 µm particle size COLUMN TEMPERATURE = 30°C MOBILE PHASE- Acetonitrile/ Buffer/ Methanol (60:25:15), Buffer = 0.01 M K2HPO4 adjusted to pH 7.0 with H3PO4
FLOW RATE = 1.75 mL/min.
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66
ANALYTES AND EXTRACTION EFFICIENCY COMPOUND Retention Time (min) % Recovery %RSD Cerilliant # Trimipramine ISTD* 2.048 100.0% 5.53% T-904 Doxepin 3.048 96.5% 8.04% D-905 Amitriptyline 3.433 98.9% 5.64% A-923 Imipramine 3.865 97.2% 6.09% I-902 Nortriptyline 5.349 88.9% 9.49% N-907 Nordoxepin 5.788 85.0% 5.29% D-007 Desipramine 6.067 85.3% 5.04% D-906 Protriptyline ISTD* 6.476 86.3% 5.39% P-903 * Internal Standards
HINTS: (1) Silica Based HPLC columns are sensitive to pH. To prevent dissolution of the packing especially at the head of the column, it is best to place a silica column before the injector. This will saturate the mobile phase with silica. (2) Secondary Amines bind to glass and polyethylene. It is recommended to silylate all surfaces that come in contact with the sample. Immersion into 5% DMCS in toluene or vapor deposition will deactivate the surface by silylation. (3) To ensure the proper strength of elution solvent measure the apparent pH of the elution solvent. It should be pH 10 or higher. Add 1-2% of Ammonium Hydroxide and check again.
DCN-903020-55
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67
METHADONE IN URINE FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE To 2 mL of urine add internal standard(s)* and 1 mL of 100 mM phosphate buffer (pH 6.0). Mix/vortex. Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 2 mL 100 mM phosphate buffer (pH 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 to 2 mL / minute. 4. WASH COLUMN 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM acetic acid. 1 x 3 mL CH3OH. Dry column (5 minutes at > 10 inches Hg). 5. ELUTE METHADONE
1 x 3 mL CH2Cl2 / IPA/NH4OH (78:20:2); Collect eluate at 1 to 2 mL / minute. NOTE: Prepare elution solvent daily. Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12). 6. CONCENTRATE Evaporate to dryness at < 40°C. Reconstitute with 100 µL acetonitrile**. 7. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Compound Primary*** Secondary Tertiary Cerilliant # |*Methadone-D9 78 226 303 M-008 Methadone 72 223 294 M-007 * Suggested internal standard for GC/MS: D9-Methadone ** Part # SACN-0-50
*** Quantitation ion
DCN-903020-56
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68
METHADONE / EDDP IN WHOLE BLOOD, PLASMA / SERUM, TISSUE AND URINE USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN PART #: ZSDAU020 LC-MSMS February 3, 2009
1. PREPARE SAMPLE To 1 mL of 100 mM phosphate buffer (pH= 6) add internal standard.*
Add 1 mL of whole blood, serum/ plasma urine or tissue (1 g of 1:4 homogenate). Add 2 mL of 100 mM phosphate buffer (pH= 6).
Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate Mix/vortex. Centrifuge as appropriate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH 1 x 3 mL D.I. H2O 1 x 1 mL 100 mM phosphate buffer (pH= 6). Note: aspirate at < 3 inches Hg to prevent sorbent drying out 3. APPLY SAMPLE Load sample at 1-2 mL / minute. 4. WASH COLUMN 1 x 3 mL DI H2O 1 x 3 mL 100 mM acetic acid. 1 x 3 mL CH3OH Dry column (5 minutes at > 10 inches Hg). 5. ELUTE METHADONE/EDDP 1 x 3 mL ethyl acetate; acetonitrile: ammonia (78: 20: 2 v/v) Collect eluate at 1-2 mL /minute. NOTE: Prepare elution solvent daily 6. EVAPORATION Evaporate eluates under a gentle stream of nitrogen < 40°C. 7. Reconsititue sample in 100 μL of CH3OH.
Inject 5 μL.
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INSTRUMENT CONDITIONS: Column: 150 x 2.1 mm (3 μm) SB-Aq (Agilent Technologies) Mobile phase: Time % Acetonitrile %0.1% Formic acid 0 25 75 5 25 75 14 90 10 15 25 75 20 25 75 Flowrate: 0.35 mL/ minute Column Temperature: ambient Detector: API 2000 MS/MS Compound MRM Transistion Cerilliant # Methadone 310.2/105.1 M-007 *Methadone-D9 319.2/268.3 M-088 EDDP 278.2/234.2 E-022 *EDDP-D3 281.4/234.3 E-021
DCN-903020-57
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70
PAROXETINE IN BLOOD, PLASMA/ SERUM AND URINE. LC/MS/MS CONFIRMATIONS USING: 200 mg CSDAU EXTRACTION COLUMN Part #: ZSDAU020 February 3, 2009
1. PREPARE SAMPLE: To 1 mL of 100 mM phosphate buffer (pH= 6) add internal standards*. Add 1 mL whole blood, Serum/Plasma or Urine. Add 2 mL of 100 mM phosphate buffer (pH= 6). Vortex and centrifuge as appropriate.
2. CONDITION COLUMN: 1 x 3 mL CH3OH 1 x 3 mL D.I. H2O 1 x 3 mL 100 mM phosphate buffer (pH= 6). Note: aspirate at < 3 inches Hg to prevent sorbent drying out.
3. APPLY SAMPLE: Load sample at 1-2 mL / minute.
4. WASH COLUMN: 1 x 3 mL D.I. H2O 1 x 3 mL 100 mM acetic acid 1 x 3 mL CH3OH Dry column (5 minutes at > 10 inches Hg).
5. ELUTE PAROXETINE: 1 x 3 mL Ethyl acetate: acetonitrile: ammonium hydroxide (78:20:2) Collect eluate at 1-2 mL / minute.
6. EVAPORATION: Evaporate eluates under a gentle stream of nitrogen < 40°. Dissolve residue in 100 μL CH3OH.
INSTRUMENT CONDITIONS:
Column: 50 x 2.1 mm (3 μm) Selectra® Phenyl (UCT, LLC)
Mobile phase: Time Acetonitrile 0.1% Formic Acid aq
0 10 90
15 50 50
16 10 90
20 10 10
Flow rate: 0.35 mL/ minute Injection Volume: 5 μL Column Temperature: ambient Detector: API 2000 MS/MS.
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71
Compound MRM Transition Cerilliant #
Paroxetine 330.0/190.1 P-915
Paroxetine-D6 336.0/ 76.1 A-916
CHROMATOGRAM OF:
Paroxetine
Paroxetine-D6
Recovery: > 90% (N=20)
LOD: 1 ng/ mL
DCN-903020-58
XIC of +MRM (99 pairs): 330.0/192.1 amu from Sample 2 (parox25) of april032008b.wiff (Turbo Spray) Max. 6600.0 cps.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20Time, min
0
1000
2000
3000
4000
5000
6000
6600
Inte
nsity
, cp
s
11.75
XIC of +MRM (99 pairs): 336.1/76.1 amu from Sample 2 (parox25) of april032008b.wiff (Turbo Spray) Max. 3.0e4 cps.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20Time, min
0.0
5000.0
1.0e4
1.5e4
2.0e4
2.5e4
3.0e4
Inte
nsity
, cp
s
11.68
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72
PROPOXYPHENE IN BLOOD, PLASMA/SERUM, URINE AND TISSUE FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE To 1 mL of 100 mM phosphate buffer (pH =6.0) add internal standard*. Add 1 mL of blood, plasma/ serum or 1 g (1:4) tissue homogenate or 2 mL of urine. Mix/vortex. Sample pH should be 6.0 ± 0.5.
Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. Centrifuge as appropriate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 mL/minute. 4. WASH COLUMN 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM acetic acid. 1 x 3 mL CH3OH. Dry column (5 minutes at > 10 inches Hg). 5. ELUTE PROPOXYPHENE
1 x 3 mL CH2Cl2/IPA/NH4OH (78:20:2); Collect eluate at 1 mL/minute.
NOTE: Prepare elution solvent daily. Add IPA/NH4OH, mix, and then add CH2Cl2 6. CONCENTRATE Evaporate to dryness at < 40°C. Reconstitute with 100 µL ethyl acetate.
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73
7. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Compound Primary*** Secondary Tertiary OTHER Cerilliant # Propoxyphene-D5* 63 120 213 255, 270 P-901 Propoxyphene 58 115 208 250, 265 P-011 * Internal Standard *** Quantitation Ion NOTE: To improve the analysis for Norpropoxyphene, the primary metabolite of Dextropropoxyphene, add 1 drop of 35% sodium hydroxide solution to the urine sample and then after mixing bring the pH to 6 for SPE extraction. This step converts the Norpropoxyphene to Norpropoxyphene amide, a more stable compound. For more information see the following reference: Amalfitano G, Bessard J, Vincent F, Esseric H and Bessard G Gas Chromatographic Quantitation of Dextropropoxyphene and Norpropoxyphene in Urine after Sold Phase Extraction Journal Analytical Toxicology 20:547-554 (1996)
DCN-903020-59
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74
PROPOXYPHENE AND NORPROPOXYPHENE IN BLOOD, PLASMA/SERUM, TISSUE AND URINE USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 LC/MS/MS February 3, 2009
6. PREPARE SAMPLE: To 1 mL of 100 mM phosphate buffer (pH= 6) add internal standard.* Add 1 mL of whole blood, serum/ plasma, urine or tissue (1 g of 1:4 homogenate). Add 2 mL of 100 mM phosphate buffer (pH= 6). Vortex and centrifuge as appropriate.
7. CONDITION COLUMN: 1 x 3 mL CH3OH 1 x 3 mL D.I. H2O 1 x 1 mL 100 mM phosphate buffer (pH 6).
Note: aspirate at < 3 inches Hg to prevent sorbent drying out
8. APPLY SAMPLE: Load sample at 1-2 mL / minute.
9. WASH COLUMN: 1 x 3 mL DI H2O 1 x 3 mL 100 mM acetic acid. 1 x 3 mL CH3OH
Dry column (5 minutes at > 10 inches Hg).
10. ELUTE PROPOXYPHENE/ NORPROPOXYPHENE: 1 x 3 mL ethyl acetate; acetonitrile: ammonia (78: 20: 2 v/v) Or 1 x 3 mL CH2Cl2/ IPA/ ammonia (78:20:2 v/v) Collect eluate at 1-2 mL /minute.
6. EVAPORATION: Evaporate eluates under a gentle stream of nitrogen < 40°C to half volume. Add 100 µL of 0.1% HCl in CH3OH. Vortex mix. Continue evaporation to dryness <40 ˚C.
7. Reconstitute sample in 100 μL of CH3OH. Inject 5 μL.
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75
INSTRUMENT CONDITIONS:
Column: 50 x 2.1 mm (3 µm) Selectra® Phenyl (UCT, LLC) Mobile phase: Time % Acetonitrile %0.1% Formic acid 0 30 70 10 30 70
Flowrate: 0.35 mL/ minute Column Temperature: ambient Detector: API 2000 MS/MS
Compound MRM Transition Cerilliant # Propoxyphene 340.0/ 58.0 P-011 *Propoxyphene-D11 351.2/ 64.0 P-013 Norpropoyphene 326.0/ 252.0 N-013 *Norpropoxyphene-D5 331.0/257.0 N-904
Chromatogram of:
Propoxyphene (top) Propoxyphene-D11 Norpropoxyphene Norpropoxyphene-D5 (lower)
DCN-903020-61
XIC of +MRM (4 pairs): 340.3/58.1 amu from Sample 1 (ppx3) of july072008ppxe.wiff (Turbo Spray) Max. 2.3e4 cps.
1 2 3 4 5 6 7 8 9 10Time, min
0.0
1.0e4
2.0e4
Inte
nsity
, cps
3.42
XIC of +MRM (4 pairs): 351.3/63.0 amu from Sample 1 (ppx3) of july072008ppxe.wiff (Turbo Spray) Max. 1176.7 cps.
1 2 3 4 5 6 7 8 9 10Time, min
0
500
1000
Inte
nsity
, cps
3.34
XIC of +MRM (4 pairs): 326.2/252.2 amu from Sample 1 (ppx3) of july072008ppxe.wiff (Turbo Spray) Max. 1.1e4 cps.
1 2 3 4 5 6 7 8 9 10Time, min
0.00
5000.00
1.00e4
Inte
nsity
, cps
3.09
XIC of +MRM (4 pairs): 331.2/257.2 amu from Sample 1 (ppx3) of july072008ppxe.wiff (Turbo Spray) Max. 1.6e4 cps.
1 2 3 4 5 6 7 8 9 10Time, min
0.0
5000.0
1.0e4
1.5e4
Inte
nsi
ty, cp
s
3.04
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76
SERTRALINE AND DESMETHYLSERTRALINE IN BLOOD, PLASMA / SERUM FOR HPLC ANALYSIS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE To 4 mL D.I. H2O add 2 mL of 100 mM phosphate buffer (pH= 6.0). To this add internal standard* Add 1 mL of blood, plasma/serum or urine.Mix/vortex. Centrifuge for 10 minutes at 2000 rpm and discard pellet. Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN
1 x 3 mL CH3OH.
1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 mL/minute. 4. WASH COLUMN 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM acetic acid.
1 x 3 mL CH3OH. Dry column (5 minutes at > 10 inches Hg). 5. ELUTE
1 x 3 mL CH2Cl2/IPA/NH4OH (78:20:2); Collect eluate at 1 mL/minute. NOTE: Prepare elution solvent fresh daily. Add IPA/NH4OH, mix, and then add CH2Cl2 6. DRY ELUATE Evaporate to dryness at < 40°C. 7. QUANTITATE Reconstitute with 200 µL acetonitrile: D.I. H2O (1 :3). Mix/vortex vigorously for 30 seconds. Inject 100 µL onto chromatograph at wavelength 235 nm. Mobile phase = 0.25 M potassium phosphate (pH 2.7).
Containing 30% CH3CN. Flow rate = 2 mL/minute.
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HPLC SYSTEM:
Isocratic HPLC using a Pump thru a C8 HPLC Column ( LC-8 or equivalent HPLC Column ) 15 cm x 4.6 mm ID Coupled to a UV detector set at 235 nm.
Compound Cerillant #
Sertraline S-006
**Desmethylsertraline N‐049
** Norsertraline= Desmethylsertraline
DCN-903020-62
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78
ANTIDEPRESSANTS / PAINKILLERS IN BLOOD AND URINE USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN PART #: ZSDAU020 LC/MS/MS February 3, 2009
1. PREPARE SAMPLE To 1 mL of 100 mM prosphate buffer (pH= 6) add internal standard.* Add 1 mL of blood or urine. Add 2 mL of 100 phosphate buffer (pH= 6). Mix/vortex. Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. Mix/vortex. Centrifuge as appropriate.
2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL MeOH. 1 x 3 mL H2O.
1 x 1 mL 100 mM phosphate buffer (pH= 6). Note: aspirate at < 3 inches Hg to prevent sorbent drying out.
3. APPLY SAMPLE: Load sample at 1-2 mL / minute.
4. WASH COLUMN: 1 x 3 mL DI Water. 1 x 3 mL 1% acetic acid. 1 x 3 mL Methanol. Dry column (5 minutes at > 10 inches Hg).
5. ELUTE ANTIDEPRESSANTS/PAINKILLERS: 1 x 3 mL ethyl acetate; acetonitrile: ammonia (78: 20: 2 v/v). Collect eluate at 1-2 mL /minute.
6. EVAPORATION: Evaporate eluate under a gentle stream of nitrogen < 40ºC.
7. RECONSTITUTE sample in 100 µL of methanol. Inject 5 µL.
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INSTRUMENT CONDITIONS: Column: 150 x 2.1 mm (3.5 µm) Zorbax: Agilent Technologies. Mobile phase: Acetonitrile: 0.1% Formic acid (33:67). Flowrate: 0.35 mL/minite. Column Temperature: ambient. Detector: API 2000 MS/MS. Compound MRM Transistion Cerilliant # Amitriptyline 278.8/91.1 A-923 *Amitriptyline-D3 281.2/91.2 B-130284 N-10 Diphenhydramine 256.2/167.1 D-015 *Diphenhydramine-D3 259.2/167.1 D-017 Doxepin 280.2/107.1 D-005 EDDP 278.2/234.2 E-022
*EDDP-D3 281.4/234.3 E-021
Methadone 310.2/105.1 M-007 *Methadone-D9 319.2/268.3 M-088 Nortriptyline 264.2/91.1 N-907 Norpropoxyphene 326.2/44.1 N-913 *Norpropoxyphene-D5 331.1/267.1 N-904 Propoxyphene 340.2/58.1 P-011 *Propoxyphene-D11 351.3/64.0 P-013 Sertraline 308.1/161.0 S-006 Tramadol 264.2/58.1 T-027 *Tramadol-D3 268.2/58.0 T-029 Venlafaxine 278.2/58.2 V-004 Zolpidem 308.2/235 Z-901
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80
ANTIDEPRESSANTS / PAINKILLERS IN BLOOD AND URINE CHROMATOGRAM
Recovery: > 90% (N=100) LOD: 1 ng/mL
DCN-903020-63
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81
ANTIDEPRESSANTS IN BLOOD, SERUM/PLASMA, AND URINE USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN PART #: CSDAU020 LC/MS/MS June 29, 2009
1. PREPARE SAMPLE: To 1 mL of 100 mM prosphate buffer (pH= 6) add internal standard. Add 1 mL of blood or urine. Add 2 mL of 100 phosphate buffer (pH= 6). Mix/vortex.
Sample pH should be 6.0 ± 0.5.
Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate.
Mix/vortex.
Centrifuge as appropriate.
2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH 1 x 3 mL DI H2O
1 x 1 mL 100 mM phosphate buffer (pH= 6) Note: aspirate at < 3 inches Hg to prevent sorbent drying out.
3. APPLY SAMPLE: Load sample at 1-2 mL / minute.
4. WASH COLUMN: 1 x 3 mL DI H2O 1 x 3 mL 100 mM acetic acid. 1 x 3 mL CH3OH. Dry column (5 minutes at > 10 inches Hg).
5. ELUTE ANTIDEPRESSANTS 1 x 3 mL ethyl acetate; acetonitrile: ammonium hydroxide (78: 20: 2 v/v).
OR
1 x 3 mL dichloromethane: isopropanol/ ammonium hydroxide (78:20:2 v/v)
Collect eluate at 1-2 mL /minute.
6. EVAPORATION: Evaporate eluate under a gentle stream of nitrogen < 40ºC.
7. RECONSTITUTE sample in 100 µL of methanol. Inject 5 µL.
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82
INSTRUMENT CONDITIONS: Column: 50 x 2.1 mm (3µm) SELECTRA® Phenyl UCT, LLC., Mobile phase:
Time/ min % Acetonitrile % 0.1 % Formic Acid 0 10 90 15 50 50 16 10 90 20 10 90
Flowrate: 0.35 mL/minute Column Temperature: ambient. Detector: API 2000 MS/MS.
Chromatogram of drugs extracted from whole blood ( 1 mL )
XIC of +MRM (117 pairs): 278.3/91.1 amu from Sample 3 (base mix) of june302008base1.wiff (Turbo Spray) Max. 3.6e4 cps.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20Time, min
0.0
1.0e4
2.0e4
3.0e4
4.0e4
5.0e4
6.0e4
7.0e4
8.0e4
9.0e4
1.0e5
1.1e5
1.2e5
1.3e5
1.4e5
1.5e5
1.6e5
1.7e5
1.8e5
1.9e5
2.0e5
2.1e5
2.2e5
2.3e5
Inte
nsity
, cp
s
6.70
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83
COMPOUND MRM TRANSITIONS CERILLIANT#
Amitriptyline 278.2/233.1 A-923
Buproprion 240.1/184.1 B-034
Citalopram 325.2/109.0 C-057
Fluoxetine 310.1/44.0 F-918
Norfluoxetine 296.2/134.2 N-923
Nortriptyline 264.2/233.1 N-907
Venlafaxine 278.2/58.0 V-004
Zolpidem 308.2/235.0 Z-901
Recovery: > 90%
LOD : 10 ng/ mL (n=10)
DCN-909260-162
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84
CLOZAPINE AND METABOLITES IN WHOLE BLOOD, SERUM/PLASMA AND URINE USING: 300 mg CLEAN-UP® EXTRACTION COLUMN PART #: CECN41L3 LC/MS/MS / LC-UV February 3, 2009
1. PREPARE SAMPLE To 1 mL of 100 mM prosphate buffer (pH= 6) add internal standard.* Add 1 mL of blood, serum/plasma or urine. Add 2 mL of 100 mM phosphate buffer (pH=6). Mix/vortex Centrifuge as appropriate.
2. CONDITION CLEAN SCREEN® CECN41L# EXTRACTION COLUMN
1 x 1 mL MeOH. 1 x 1 mL H2O.
1 x 0.5 mL 100 mM phosphate buffer (pH= 6). Note: aspirate at < 3 inches Hg to prevent sorbent drying out.
3. APPLY SAMPLE Load sample at 1-2 mL / minute.
4. WASH COLUMN 1 x 1 mL D.I. Water 1 x 0.5 mL 1% ammonium hydroxide in D.I. water. Dry column (5 minutes at > 10 inches Hg).
5. ELUTE CLOZAPINE 1 x 0.2 mL 1% ammonium hydroxide in methanol. Collect eluate at 1-2 mL /minute. Inject 5 µL (LCMSMS). Inject 20 µL (LC-UV).
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85
INSTRUMENT CONDITIONS
Column: 150 x 2.1 mm (3 µm) Zorbax: Agilent Technologies. Mobile phase: Acetonitrile: 0.1% Formic acid (33:67). Flowrate: 0.35 mL/minite. Column Temperature: ambient. Detector: API 2000 MS/MS. HP1100 Diode-Array (230 nm). Compound MRM Transistion Cerilliant # Clozapine 327.1/270.1 C-059 Desmethylclozapine 313.1/192.1 Clozapine-N-oxide 343.1/243.1 *Flurazepam 388.1/315.2 F-003
DCN-903020-64
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86
OLANZAPINE IN WHOLE BLOOD USING: 300 mg CLEAN-UP® EXTRACTION COLUMN PART #: CECN4123 LC-UV February 3, 2009
1. PREPARE SAMPLE
To 1 mL of D.I. H2O add internal standard.* Add 1 mL blood. Add 8 mL of D,I. H2O. Vortex and centrifuge as appropriate. 2. CONDITION CLEAN SCREEN® CECN4123 EXTRACTION COLUMN
1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. Note: aspirate at < 3 inches Hg to prevent sorbent drying out.
3. APPLY SAMPLE:
Load sample at 1-2 mL / minute. 4. WASH COLUMN:
1 x 3 mL 1 % acetic acid (aq). Dry column (5 minutes at > 10 inches Hg). 5. ELUTE OLANZAPINE:
2 x 3 mL 1% acetic acid in CH3OH. Collect eluate at 1-2 mL /minute. NOTE: Prepare elution solvent daily
6. EVAPORATION:
Evaporate eluates under a gentle stream of nitrogen < 40°C. 6. RECONSITITUE sample in 100 μL 0.1% trifluoroacetic acid (aq).
Inject 50 μL.
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87
INSTRUMENT CONDITIONS: Column: Gold C18 150 x 2.1 mm (3 μm) Thermofisher. Mobile phase: Time (minutes): % Acetonitrile: %0.1% TFA 0 5 95 5 5 95 14 67 33 15 5 95 25 5 95 Flowrate: 0.15 mL/ min Column Temperature: 40˚ C Detector: Diode Array (260 nm) Compound Cerilliant Part # Olanzapine O-024 *Prazepam P-906
DCN-903020-65
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88
DEXTROMETHORPHAN AND PHENCYCLIDINE IN WHOLE BLOOD AND URINE LC/MS/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN®
DAU EXTRACTION COLUMN April 30, 2009
1. PREPARE SAMPLE: To 1 mL of 100 mM phosphate buffer (pH 6) add internal standard.*
Add 1 mL blood, urine. Add 2 mL of 100 mM phosphate buffer (pH 6).
Vortex and centrifuge as appropriate.
2. CONDITION COLUMN: 1 x 3 mL CH3OH
1 x 3 mL D.I. H2O
1 x 1 mL 100 mM phosphate buffer (pH 6).
Note: aspirate at < 3 inches Hg to prevent sorbent drying out.
3. APPLY SAMPLE: Load sample at 1-2 mL / minute.
4. WASH COLUMN: 1 x 3 mL D.I. H2O
1 x 3 mL 100 mM acetic acid
1 x 3 mL CH3OH
Dry column (10 minutes at > 10 inches Hg).
5. ELUTE DEXTROMETHORPHAN / PHENCYCLIDINE
1 x 3 mL ethyl acetate: acetonitrile: ammonium hydroxide (78:20:2)
Collect eluate at 1-2 mL / minute.
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89
6. EVAPORATION:
Evaporate eluates under a gentle stream of nitrogen < 40°.
Dissolve residue in 50 μL CH3OH.
INSTRUMENT CONDITIONS:
Column: 50 x 2.1 mm (3 μm) Selectra® Phenyl (UCT, LLC)
Mobile phase: Time Acetonitrile 0.1% Formic Acid
0 10 90
15 90 10
16 10 90
20 10 90
Flowrate: 0.35 mL/ minute
Injection Volume: 5 μL
Column Temperature: ambient
Detector: API 2000 MS/MS.
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90
CHROMATOGRAM OF DEXTROMETHORPHAN / PHENCYCLIDINE
Compound MRM Transition Cerilliant #
PCP 244.3/ 159.2 P-007
PCP-D5 249.3/264.1 P-003
Dextromethorphan 272.1/128.1 D-013
Dextromethorphan-D3 275.1/ 131.0 D-041
DCN-900340-159
XIC of +MRM (111 pairs): 272.1/128.0 amu from Sample 5 (dmxpcp10) of april072008a.wiff (Turbo Spray) Max. 4357.1 cps.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19Time, min
0
500
1000
1500
2000
2500
3000
3500
4000
4357
Inte
nsity
, cps
9.29
XIC of +MRM (111 pairs): 244.3/86.1 amu from Sample 5 (dmxpcp10) of april072008a.wiff (Turbo Spray) Max. 3.0e4 cps.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19Time, min
0.0
5000.0
1.0e4
1.5e4
2.0e4
2.5e4
3.0e4
Inte
nsity
, cps
8.48
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91
*DULOXETINE IN BLOOD AND URINE USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part # ZSDAU020 LC/MS/MS March 9, 2009
1. PREPARE SAMPLE To 1 mL of 100 mM prosphate buffer (pH= 6) add internal standard.* Add 1 mL of blood or urine. Add 2 mL of 100 phosphate buffer (pH= 6). Mix/vortex.
Sample pH should be 6.0 ± 0.5.
Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate.
Mix/vortex.
Centrifuge as appropriate.
2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL DI H2O.
1 x 1 mL 100 mM phosphate buffer (pH= 6). Note: aspirate at < 3 inches Hg to prevent sorbent drying out.
3. APPLY SAMPLE: Load sample at 1-2 mL / minute.
4. WASH COLUMN: 1 x 3 mL DI H2O. 1 x 3 mL 100 mM acetic acid. 1 x 3 mL CH3OH. Dry column (5 minutes at > 10 inches Hg).
5. ELUTE DULOXETINE: 1 x 3 mL dichloromethane/ isopropanol/ ammonia (78: 20: 2 v/v). Collect eluate at 1-2 mL /minute.
6. EVAPORATION: Evaporate eluate under a gentle stream of nitrogen < 40ºC.
7. RECONSTITUTE sample in 200 µL of 0.1% Formic acid. Inject 5 µL.
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92
INSTRUMENT CONDITIONS: Column: 50 x 2.1 mm (5µm) C18 Mobile phase: Time/ min % Acetonitrile % 0.1 % Formic Acid 0 5 95 4 90 10 4.1 5 95 5 5 95 Flowrate: 0.5 mL/minite. Column Temperature: ambient. Detector: API 3200 Q-Trap MS/MS. Compound MRM Transistion Cerilliant # * Ethyl Morphine 314.2/ 152.2 E-052 Duloxetine 298.1/44.1 D-004
Chromatogram of Ethyl Morphine and Duloxetine
Recovery > 90%
*Presented at SOFT annual meeting 2008 by A.A. Elian
DCN-909030-128
XIC of +MRM (4 pairs): 298.2/44.1 amu from Sample 3 (1.0) of 1009.wiff (Turbo Spray) Max. 3890.0 cps.
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.538 74 111 147 184 220 257 294 330
Time, min
0
7570
I...
3.09
2.942.83 TIC
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
XIC of +MRM (4 pairs): 298.2/44.1 amu from Sample 3 (1.0) of 1009.wiff (Turbo Spray) Max. 3890.0 cps.
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.538 74 111 147 184 220 257 294 330
Time, min
0
3890
I...
3.09
2.942.83
Duloxetine
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
XIC of +MRM (4 pairs): 298.2/154.3 amu from Sample 3 (1.0) of 1009.wiff (Turbo Spray) Max. 1395.0 cps.
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.538 74 111 147 184 220 257 294 330
Time, min
0
1000
I...
3.09
Duloxetine
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
XIC of +MRM (4 pairs): 314.2/152.2 amu from Sample 3 (1.0) of 1009.wiff (Turbo Spray) Max. 7570.0 cps.
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.538 74 111 147 184 220 257 294 330
Time, min
0
7570
I...
2.23
Ethyl morphine
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
XIC of +MRM (4 pairs): 314.2/128.3 amu from Sample 3 (1.0) of 1009.wiff (Turbo Spray) Max. 5875.0 cps.
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.538 74 111 147 184 220 257 294 330
Time, min
0
5000
I...
2.23
Ethyl morphine
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
Printing Time: 10:58:31 AMPrinting Date: Tuesday, October 14, 2008
Polarity/Scan Type: Positive MRMAnalyst Version: 1.4.2
*POST PM BY RHH *API 3200 QTRAP S/N AF011810604
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93
TRAMADOL AND DESMETHYLTRAMADOL IN BLOOD, PLASMA/SERUM, URINE AND TISSUE USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 LC/MS/MS January 30, 2009
1. PREPARE SAMPLE: To 1 mL of 100 mM phosphate buffer (pH 6) add internal standard.*
Add 1 mL of whole blood, serum/ plasma, urine, or 1g tissue homogenate (1:4). Add 2 mL of 100 mM phosphate buffer (pH 6).
Vortex and centrifuge as appropriate.
2. CONDITION COLUMN: 1 x 3 mL CH3OH 1 x 3 mL D.I. H2O 1 x 1 mL 100 mM phosphate buffer (pH 6). Note: aspirate at < 3 inches Hg to prevent sorbent drying out
3. APPLY SAMPLE: Load sample at 1-2 mL / minute.
4. WASH COLUMN: 1 x 3 mL DI H2O 1 x 3 mL 100 mM acetic acid. 1 x 3 mL CH3OH Dry column (5 minutes at > 10 inches Hg).
5. ELUTE TRAMADOL AND DESMETHYLTRAMADOL: 1 x 3 mL ethyl acetate; acetonitrile: ammonia (78: 20: 2 v/v)
Or
1 x 3 mL CH2Cl2/ IPA/ ammonia (78:20:2 v/v) Collect eluate at 1-2 mL /minute.
6. EVAPORATION: Evaporate eluates to dryness under a gentle stream of nitrogen.
7. RECONSTITUTE sample in 50 μL of CH3OH. Inject 5 μL.
INSTRUMENT CONDITIONS: Column: 50 x 2.1 mm (3 µm) Selectra® Phenyl (UCT, LLC)
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94
MOBILE PHASE:
Time % Acetonitrile %0.1% Formic acid
0 10 90 5 90 10 5.5 10 90 10 10 90
Flowrate: 0.35 mL/ minute
Column Temperature: ambient
Detector: API 2000 MS/MS
Compound MRM Transition Cerilliant #
Tramadol 264.2/58 T-027
Desmethyltramadol 250.2/44 D-023/T-035
*Tramdol-C13-D3 268.2/58 T-029
CHROMATOGRAM SHOWING:
Tramadol/ Desmethyltramadol/ Tramdol-C13-D3
Recovery: > 90% (n=10) LOD: 10 ng/ mL
DCN-900310-28
XIC of +MRM (160 pairs): 264.2/58.0 amu from Sample 2 (tramadol 10) of jan202009tram1a.wiff (Turbo Spray) Max. 2380.0 cps.
1 2 3 4 5 6 7 8 9 10Time, min
0
500
1000
1500
2000
2380
Inte
nsity
, cps
XIC of +MRM (160 pairs): 250.1/44.0 amu from Sample 2 (tramadol 10) of jan202009tram1a.wiff (Turbo Spray) Max. 4940.0 cps.
1 2 3 4 5 6 7 8 9 10Time, min
0
1000
2000
3000
4000
4940
Inte
nsity
, cps
XIC of +MRM (160 pairs): 268.2/58.0 amu from Sample 2 (tramadol 10) of jan202009tram1a.wiff (Turbo Spray) Max. 5.1e4 cps.
1 2 3 4 5 6 7 8 9 10Time, min
0.0
1.0e4
2.0e4
3.0e4
4.0e4
5.0e4
Inte
nsity
, cps
3.92
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95
QUETIAPINE IN BLOOD, PLASMA/SERUM, URINE AND TISSUE
USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN PART #: ZSDAU020 February 3, 2009
1. PREPARE SAMPLE: To 1 mL of 100 mM phosphate buffer (pH= 6) add internal standard.* Add 1 mL blood, plasma/serum, urine or 1 g (1:4) tissue homogenate Add 2 mL of 100 mM phosphate buffer (pH= 6). Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. Centrifuge as appropriate.
2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN
1 x 3 mL CH3OH.
1 x 3 mL D.I. H2O.
1 x 3 mL 100 mM phosphate buffer (pH= 6). Note: aspirate at < 3 inches Hg to prevent sorbent drying out. 3. APPLY SAMPLE: Load sample at 1-2 mL / minute. 4. WASH COLUMN: 1 x 3 mL 100 mM phosphate buffer (pH 6). 1 x 3 mL 1.0 M acetic acid. 1 x 3 mL CH3OH.
Dry column (5 minutes at > 10 inches Hg). 1 x 3 mL of hexane. Dry column (5 minutes at > 10 inches Hg). 5. ELUTE QUETIAPINE: 1 x 3 mL ethyl acetate; acetonitrile: ammonia (78: 20: 2 v/v). Collect eluate at 1-2 mL /minute. NOTE: Prepare elution solvent daily 6. EVAPORATION: Evaporate eluates under a gentle stream of nitrogen < 40°C. 6. Reconsititue sample in 100 μL 0.1% trifluoroacetic acid (aq). Inject 50 μL.
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INSTRUMENT CONDITIONS: Column: C18 150 x 4.6 mm (3 μm) Zorbax (Agilent Technologies).
Mobile phase: Acetonitrile: 0.1% Trifluoroacetic acid (25: 75). Flowrate: 1 mL / min. Column Temperature: 35˚ C. Detector: Diode Array (250 nm). Chromatogram : Cerilliant Part # Quetiapine Q001 *Quinidine
DCN-903020-66
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97
COCAINE AND BENZOYLECGONINE IN SERUM, PLASMA, OR WHOLE BLOOD FOR HPLC USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE
To 4 mL of D.I. H2O add internal standards. 1 mL of sample (Serum, Plasma or Whole Blood) add internal standard(s) Mix/vortex and let stand 5 minutes. Centrifuge for 10 minutes at 2000 rpm and discard pellet. Add 2 mL of 100 mM phosphate buffer (pH= 6.0). Mix/vortex. Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN
1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying.
3. APPLY SAMPLE
Load at 1 to 2 mL/minute. 4. WASH COLUMN
1 x 3 mL D.I. H2O. 1 x 2 mL 100 mM HCl. 1 x 3 mL CH3OH. Dry column (5 minutes at > 10 inches Hg). 5A*. ELUTE COCAINE AND BENZOYLECGONINE
1 x 3 mL CH2Cl2/IPA/NH4OH (78:20:2); collect eluate at 1 to 2 mL/minute. NOTE: Prepare elution solvent daily.
Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12). 5B*. ELUTE COCAINE AND BENZOYLECGONINE
1 x 2 mL CH3OH/NH4OH (98:2); collect eluate at 1 to 2 mL/minute. NOTE: Prepare elution solvent daily.
Add 3 mL D.I. H2O and 500 µL CH2Cl2 to eluate.
Mix / vortex 10 seconds. Centrifuge if necessary to separate layers. Aspirate and discard aqueous (upper) layer. 6. CONCENTRATE
Evaporate to dryness at < 40°C. Reconstitute in mobile phase for injection into HPLC. * Choose either 5A or 5B
DCN-903020-67
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98
COCAINE AND ITS METABOLITES FROM MECONIUM FOR GC OR GC/MS ANALYSIS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE Vortex 0.5 -1 g meconium with 2 mL of CH3OH. Centrifuge and transfer the supernatant to a clean tube. To each tube add 3 mL 100 mM phosphate buffer (pH 6.0), internal standard and vortex. Matrix must be more aqueous than organic for good extraction to occur. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 3 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 to 2 mL/minute. Allow to dry. 4. WASH COLUMN 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM HCI. 1 x 3 mL CH3OH. Dry column (5 minutes at > 10 inches Hg). 5. ELUTE COCAINE AND METABOLITES 1 x 3 mL CH2Cl2/IPA/NH4OH (78:20:2); Collect eluate at 1 to 2 mL/minute. NOTE: Prepare elution solvent daily. Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12). 6. EVAPORATE Evaporate the elution solvent to dryness without heating. 7. DERIVATIZE Add 50 µL ethyl acetate and 50 µL BSTFA (with 1%TMCS)***. Overlay with N2 and cap. Mix/vortex. React 20 minutes at 70°C. Remove from heat source to cool. NOTE: Do not evaporate BSTFA solution. 8. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Compound Primary Ion**** Secondary Tertiary Cerilliant #
Cocaine-D3* 185 201 306 C-004 Cocaine 182 198 303 C-008 Benzoylecgonine-D3-TMS* 243 259 364 B-008 Benzoylecgonine-TMS 240 256 361 B-007 * Suggested internal standards for GC/MS *** Part # SBSTFA-1-1, 10, 25, 100 **** Quantitation ion
DCN-903020-68
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99
COCAINE AND BENZOYLECGONINE IN BLOOD, PLASMA/ SERUM, URINE AND TISSUE FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE
To 1 mL of of 100 mM phosphate buffer (pH= 6.0) add internal standards*. Add 2 mL of blood, plasma/ serum, urine or 1 g (1:4) tissue homogenate. Mix/vortex. Add 2 mL of 100 mM phosphate buffer (pH= 6). Mix/vortex
Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. Centrifuge as appropriate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN
1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying.
3. APPLY SAMPLE
Load at 1 to 2 mL/minute. 4. WASH COLUMN
1 x 3 mL D.I. H2O. 1 x 2 mL 100 mM HCI. 1 x 3 mL CH3OH. Dry column (5 minutes at > 10 inches Hg). 5. ELUTE COCAINE AND BENZOYLECGONINE
1 x 3 mL Methylene Chloride/Isopropanol/ Ammonium Hydroxide (78:20:2). Collect eluate at 1 to 2 mL/minute. NOTE: Prepare elution solvent daily. Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12). 6. DRY ELUATE
Evaporate to dryness at < 40°C. 7. DERIVATIZE
Add 50 µL ethyl acetate and 50 µL BSTFA (with 1% TMCS)***. Overlay with N2 and cap. Mix/vortex. React 20 minutes at 70°C. Remove from heat source to cool. NOTE: Do not evaporate BSTFA solution. 8. QUANTITATE
Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Compound Primary Ion**** Secondary Tertiary Cerilliant #
Cocaine-D3* 185 201 306 C-004 Cocaine 182 198 303 C-008 Benzoylecgonine-D3-TMS* 243 259 364 B-008 Benzoylecgonine-TMS 240 256 361 B-007 * Suggested internal standards for GC/MS:
D3-Cocaine, D3-Benzoylecgonine *** Part # SBSTFA-1-1, 10, 25, 100 **** Quantitation Ion DCN-903020-69
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100
COCAINE, BENZOYLECGONINE, AND COCAETHYLENE IN BLOOD, PLASMA/SERUM, URINE AND TISSUE USING: 200 mg CLEAN SCREEN®
EXTRACTION COLUMN Part #: ZSDAU020 LC/MS/MS February 3, 2009
1. PREPARE SAMPLE: To 1 mL of 100 mM phosphate buffer (pH 6) add internal standard.*
Add 1 mL of whole blood, serum/ plasma, urine, or 1g tissue homogenate (1:4). Add 2 mL of 100 mM phosphate buffer (pH 6).
Vortex and centrifuge as appropriate.
2 CONDITION COLUMN: 1 x 3 mL CH3OH
1 x 3 mL D.I. H2O
1 x 1 mL 100 mM phosphate buffer (pH 6).
Note: aspirate at < 3 inches Hg to prevent sorbent drying out
3. APPLY SAMPLE: Load sample at 1-2 mL / minute.
4. WASH COLUMN:
1 x 3 mL DI H2O
1 x 3 mL 100 mM hydrochloric acid.
1 x 3 mL CH3OH
Dry column (5 minutes at > 10 inches Hg).
5. ELUTE COCAINE, BENZOYLECGONINE, COCAETHYLENE:
1 x 3 mL ethyl acetate; acetonitrile: ammonia (78: 20: 2 v/v)
Or
1 x 3 mL CH2Cl2/ IPA/ ammonia (78:20:2 v/v)
Collect eluate at 1-2 mL /minute.
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6. EVAPORATION: Evaporate eluates to dryness under a gentle stream of nitrogen.
7. RECONSTITUTE sample in 50 μL of CH3OH. Inject 5 μL.
8. INSTRUMENT CONDITIONS: Column: 50 x 2.1 mm (3 µm) Selectra® Phenyl (UCT, Inc.,)
MOBILE PHASE:
Time % Acetonitrile %0.1% Formic acid
0 33 67
5 33 67
Flowrate: 0.35 mL/ minute
Column Temperature: ambient
Detector: API 2000 MS/MS
Compound MRM Transition Cerilliant #
Cocaine 304.2/ 182.3 C-008
* Cocaine-D3 307.2/ 185.2 C-009
Benzoylecgonine 290.1/ 168.0 B-004
*Benzoylecgonine-D8 298.2/ 171.3 B-013
Cocaethylene 318.2/ 196.2 C-010
*Cocaethylene-D8 326.2/ 204.2 C-024
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102
CHROMATOGRAM SHOWING:
Cocaine/ Cocaine-D3
Benzoylecginine/ Benzoylecgonine-D8
Cocaethylene/ Cocaethylene-D8
Recovery: > 90% (n=10)
LOD: 10 ng/ mL
DCN-903020-129
XIC of +MRM (12 pairs): 304.2/182.3 amu from Sample 4 (25) of sept172008coccal2.wiff (Turbo Spray) Max. 7216.7 cps.
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5Time, min
0.0
500.0
1000.0
1500.0
2000.0
2500.0
3000.0
3500.0
4000.0
4500.0
5000.0
5500.0
6000.0
6500.0
7000.0
7500.0
8000.0
8500.0
9000.0
9500.0
1.0e4
1.1e4
1.1e4
1.2e4
1.2e4
1.3e4
1.3e4
1.4e4
Inte
nsity
, cp
s
2.11
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103
A SOLID PHASE METHOD FOR GAMMA-HYDROXYBUTYRATE (GHB) IN URINE WITHOUT CONVERSION TO GAMMA-BUTRYLACTONE (GBL) Part #: ZSGHB020 February 3, 2009
Developed by: UCT, LLC 2731 Bartram Road Bristol, Pennsylvania 19007
1. PREPARE SAMPLE To 200 µL of urine add internal standard* and 100 µL of 100 mM phosphate buffer (pH 6.0). Mix/vortex. 2. CONDITION CLEAN SCREEN® GHB EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches of Hg to prevent sorbent drying. 3. LOAD SAMPLE Place test tubes into vacuum manifold for collection. The sample loading and wash are both collected. Decant sample onto column. Aspirate at ~1 inch Hg. 4. WASH COLUMN Add 1 mL of CH3OH /NH4OH (99:1) to original sample test tube; Vortex. Decant wash onto column. Note: Aspirate at ~1 inch of Hg. 5. CONCENTRATE Evaporate to dryness at 60oC using a stream of air or N2. 6. SAMPLE CLEAN UP Add 200 µL of dimethylformamide. Add 1 mL of hexane saturated with dimethylformamide. Mix by inversion for 5 minutes. Centrifuge at 3000 rpm for 5 minutes. Transfer lower dimethylformamide layer to a clean test tube. 7. CONCENTRATE Evaporate to dryness at < 50oC using a stream of air or N2. 8. DERIVATIZE Add 100 µL ethyl acetate and 100 µL BSTFA (with 1% TMCS)***. Mix/vortex. 9. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Compound Primary Ion * Secondary Tertiary Cerilliant # *GHB-D6-di-TMS* 239, 240, 241 G-006 GHB-di-TMS 233, 234, 235 G-001 * Suggested internal standard for GC/MS: GHB-D6 *** Part # SBSTFA-1-1, 10, 25, 100 **** Quantitation ion
DCN-903020-70
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104
BLOOD GHB EXTRACTION PROCEDURE Part #: ZSGHB020 February 3, 2009
By: Mr. Jim Oeldrich,
Wisconsin State Crime Lab, Milwaukee, WI
1. PREPARE SAMPLE To 1 mL blood sample add internal standard and 0.5 mL of 100 mM phosphate buffer (pH 6.0). Mix/vortex. Rock for 10 minutes. Centrifuge for 10 minutes at 2700 rpm. 2. CONDITION CLEAN SCREEN® GHB EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH 6.0). NOTE: Aspirate at less than 3 inches of Hg to prevent sorbent drying. 3. APPLY SAMPLE Place centrifuge tubes into vacuum manifold for collection. The sample loading is collected. Decant sample onto column. Aspirate at about 1 inch Hg. After the sample is off the columns apply full vacuum for about 15 seconds to remove any residual blood. 4. ELUTE GHB Remove centrifuge tubes, set aside. Place clean centrifuge tubes into vacuum manifold for collection.
1 x 2 mL of CH3OH /NH4OH (99:1). Aspirate at about 1 inch of Hg. 5. CONCENTRATE Remove test tubes from vacuum manifold. Vortex the sample prior to concentrating. Evaporate to dryness at 60oC using a stream of nitrogen. 6. SAMPLE CLEAN UP Add 200 µL of dimethylformamide. Add 1 mL of hexane saturated with dimethylformamide. Rock for 5 minutes. Centrifuge at 5 minutes at 2700 rpm. Transfer lower dimethylformamide layer to a clean test tube. (If necessary transfer all liquid to a clean tube and allow to separate, then proceed to extract the lower layer)
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7. CONCENTRATE Evaporate to dryness at 50oC using a stream of air or nitrogen. 8. DERIVATIZE Add 25 µL ethyl acetate and 25 µL BSTFA w 1% TMCS**. Mix/vortex. Heat at 70oC for 30 minutes. 9. QUANTITATE Inject a 1 to 2 µL of the sample onto GC/MS. Compound Primary Ion * Secondary Tertiary Cerilliant #
*GHB-D6-di-TMS* 239, 240, 241 G-006 GHB-di-TMS 233, 234, 235 G-001 ** Part # SBSTFA-1-1,10, 25,100
DCN-903020-71
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106
A SOLID PHASE METHOD FOR GAMMA-HYDROXYBUTYRATE (GHB)IN BLOOD, URINE, VITREOUS OR TISSUE WITHOUT CONVERSION TO GAMMA-BUTRYLACTONE (GBL) Part #: ZSGHB020 February 3, 2009
Developed by: Mr. Joseph A. Crifasi, M.A., M.T., (ASCP) Certified Toxicology Specialist, ABFT; Saint Louis University Health Sciences Center, Saint Louis University Medical School Forensic Toxicology,
6030 Helen Ave. St. Louis, MO 63134 314-522-6410 ext. 6517, 314-522-0955 fax
GHB working standard; 200 µg/mL in H2O; prepared from Cerilliant stock 1 mg/mL. GHB –D6working internal standard; 100 µg/mL; use as supplied Cerilliant stock (0.1 mg/mL). Working Standard Whole Blood Concentration
10 µL 200 µL 10 µg/mL 25 µL 200 µL 25 µg/mL 50 µL 200 µL 50 µg/mL 100 µL 200 µL 100 µg/mL 1. Make calibration standards and pipet 200 µL of QC and unknown bloods* into appropriately labeled 1.5 mL plastic centrifuge tubes.
*ALL SAMPLES INCLUDING URINE, VITREOUS OR HOMOGENIZED TISSUES (1:4)
2. Add 25 µL of internal standard. 3. Add 1 mL of acetone; Vortex 15 seconds. 4. Centrifuge; Transfer acetone layer to culture tubes. 5. Evaporate extracts @ 70°C w/nitrogen. 6. Reconstitute the dried extracts with 200 µL of 100 mM Phosphate Buffer (pH 6.0); Vortex 15 seconds. 7. CONDITION CLEAN SCREEN® GHB EXTRACTION COLUMN:
1 x 3 mL of CH3OH. 1 x 3 mL of D.I. H2O. 1 x 1 mL of 100 mM Phosphate Buffer (pH 6.0). NOTE: Aspirate at 3 inches of Hg or less to prevent sorbent drying.
8. APPLY SAMPLE
Add sample with Eppendorf pipette. Aspirate at ~1 inch Hg.
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9. ELUTE GHB
Place clean test tubes into vacuum manifold Add 1 mL of CH3OH/NH4OH (99:1) to original sample test tube; Vortex. Decant onto column and collect extract. Aspirate ~1 inch Hg. 10. CONCENTRATE
Remove test tube from Vacuum Manifold. Evaporate to dryness at 70°C using a steam of nitrogen or air. 11. DERIVATIZE
Add 100 µL of ethyl acetate and 100 µL of BSTFA with 1% TCMS**. Mix/Vortex. Heat at 70oC for 30 minutes. 12. QUANTITATE
Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Compound Primary Ion * Secondary Tertiary Cerilliant # *GHB-D6-di-TMS* 239, 240, 241 G-006 GHB-di-TMS 233, 234, 235 G-001
* Suggested internal standard for GC/MS: D6-GHB. ** Part # SBSTFA-1-1, 10, 25, 100
Quantitation ion Quality Control NOTE:
Quality control samples were prepared using drug free blood and 1 mg/mL in house stock standard prepared using GHB stock from Sigma (#H-3635). A negative, low and high QC sample was prepared and stored frozen in 0.5-mL aliquots until use.
DCN-903020-72
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108
KETAMINE IN BLOOD, PLASMA/SERUM AND URINE FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE
To 1 m L of 100 mM phosphate buffer (pH= 6.0) add internal standard*. Add 1-2 mL of blood, plasma/serum or urine. Mix/vortex. Add 2 mL 100 mM phosphate buffer (pH= 6.0)
Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. Centrifuge as appropriate. 1 mL of 100 mM phosphate buffer (pH= 6.0)
2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN
1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying.
3. APPLY SAMPLE
Load at 1 mL/minute. 4. WASH COLUMN
1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM Acetic Acid. 1 x 3 mL CH3OH. Dry column (5 minutes at > 10 inches Hg). 5. ELUTE KETAMINE
1 x 3 mL Dichloromethane/ Isopropanol/ Ammonium Hydroxide (78:20:2). Collect eluants at 1-2 mL/min using minimal vacuum. NOTE: Make the elution solvent fresh daily.
Add IPA/NH4OH, mix then add CH2Cl2 (pH 11-12). 6. DRY ELUATE
Evaporate to dryness at < 40°C. Reconstitute with 100 µL ethyl acetate. 7. QUANTITATE
Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Compound Primary Ion*** Secondary Tertiary Cerilliant #
Ketamine-D4* 184 213 156 K-003 Ketamine 180 209 152 K-002 * Suggested internal standard for GC/MS: D4-Ketamine *** Quantitation ion SOURCE - UCT Internal Publication.
DCN-903020-73
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109
LYSERGIC ACID DIETHYLAMIDE (LSD) IN BLOOD AND PLASMA/ SERUM FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE To 4 mL of D.I. H2O internal standard* add 1 mL of blood or plasma/serum Mix/vortex and let stand 5 minutes. Centrifuge for 10 minutes at 2000 rpm and discard pellet. Add 2 mL 100 mM phosphate buffer (pH =6.0). Mix/vortex. Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg. to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 mL/minute. 4. WASH COLUMN 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM acetic acid. 1 x 3 mL CH3OH. Dry column (5 minutes at > 10” Hg). 5. ELUTE LSD 1 x 3 mL CH2Cl2/IPA/NH4OH (78:20:2); Collect eluate at 1 mL/minute. NOTE: Prepare elution solvent daily. Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12). 6. DRY ELUATE Evaporate to dryness at < 40°C. 7. DERIVATIZE Add 20 µL ethyl acetate and 20 µL BSTFA (with 1% TMCS)***. Overlay with N2 and cap. Mix/vortex. React 30 minutes at 70°C. Remove from heat source to cool. NOTE: Do not evaporate BSTFA solution. 8. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Compound Primary Ion*** Secondary Tertiary Cerilliant # LSD-D3-TMS* 298, 296 271 L-006 LSD-TMS 395 293, 268 L-005 * Suggested internal standard for GC/MS: D3 -LSD *** Part # SBSTFA-1-1, 10, 25, 100 **** Quantitation ion
DCN-903020-74
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110
LYSERGIC ACID DIETHYLAMIDE (LSD) IN URINE FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE To 2 mL 100 mM phosphate buffer (pH= 6.0) add internal standard. Add 5 mL of urine. Mix/vortex. Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. Centrifuge as appropriate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg. to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 mL/minute. 4. WASH COLUMN 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM acetic acid. 1 x 3 mL CH3OH. Dry column (5 minutes at > 10 inches Hg). 5. ELUTE LSD 1 x 3 mL CH2Cl2/IPA/NH4OH (78:20:2); Collect eluate at 1 to 2 mL/minute. NOTE: Prepare elution solvent daily. Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12). 6. DRY ELUATE Evaporate to dryness at < 40°C. 7. DERIVATIZE Add 20 µL ethyl acetate and 20 µL BSTFA (with 1% TMCS)***. Overlay with N2 and cap. Mix/vortex. React 20 minutes at 70°C. Remove from heat source to cool. NOTE: Do not evaporate BSTFA solution. 8. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Compound Primary Ion*** Secondary Tertiary Cerilliant # LSD-D3-TMS* 298, 296 271 L-006 LSD-TMS 395 293, 268 L-005 * Suggested internal standard for GC/MS: D3-LSD *** Part # SBSTFA-1-1,10, 25,100 **** Quantitation ion
DCN-903020-75
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111
LSD AND METABOLITES IN BLOOD, PLASMA/SERUM, AND URINE USING: 200 mg CLEAN SCREEN®
EXTRACTION COLUMN Part #: CSDAU020 LC/MS/MS February 3, 2009
1. PREPARE SAMPLE: To 1 mL of 100 mM phosphate buffer (pH 6) add internal standards.* Add 1 mL of whole blood, serum/ plasma, urine. Add 2 mL of 100 mM phosphate buffer (pH 6). Vortex and centrifuge as appropriate.
2. CONDITION COLUMN: 1 x 3 mL CH3OH 1 x 3 mL D.I. H2O 1 x 1 mL 100 mM phosphate buffer (pH 6). Note: aspirate at < 3 inches Hg to prevent sorbent drying out
3. APPLY SAMPLE: Load sample at 1-2 mL / minute.
4. WASH COLUMN: 1 x 3 mL DI H2O 1 x 3 mL 100 mM acetic acid. 1 x 3 mL CH3OH Dry column (5 minutes at > 10 inches Hg).
5. ELUTE LSD AND METABOLITES 1 x 3 mL ethyl acetate; acetonitrile: ammonia (78: 20: 2 v/v) Or 1 x 3 mL CH2Cl2/ IPA/ ammonia (78:20:2 v/v) Collect eluate at 1-2 mL /minute.
6. EVAPORATION: Evaporate eluates to dryness under a gentle stream of nitrogen.
7. RECONSTITUTE sample in 50 μL of CH3OH. Inject 5 μL.
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INSTRUMENT CONDITIONS:
Column: 100 x 2.1 mm ( 3 μm ) Selectra® Phenyl ( UCT, LLC )
Mobile Phase:
Time% Acetonitrile% 0.1% Formic acid
0 30 70
3.0 90 10
3.1 30 70
5.0 30 70
Flowrate: 0.5 mL/ minute
Column Temperature: ambient
Detector: API 3200 QTRAP MS/MS
Compound MRM Transistion Cerilliant #
LSD 324.2/ 223.1 -005
Iso-LSD 324.2/281 (223.1) I-010
Nor-LSD 310.2/209.1 L-017
OH-LSD 356.2/338.1 O-013
*LSD-D3 327.2/226.1 L-002
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CHROMATOGRAM OF LSD AND METABOLITES
Recovery: > 90% (N=10)
LOD: 0.1 ng/ mL
DCN-903020-130
XIC of +MRM (5 pairs): 324.2/223.1 amu from Sample 4 (1 cal) of sept252008LSD1.wiff (Turbo Spray) Max. 4080.0 cps.
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5Time, min
0.0
2000.0
4000.0
6000.0
8000.0
1.0e4
1.2e4
1.4e4
1.6e4
1.8e4
2.0e4
2.2e4
2.4e4
2.6e4
2.8e4
3.0e4
3.2e4
3.4e4
3.6e4
3.8e4
4.0e4
Inte
nsity
, cps
1.97
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114
METHAQUALONE IN BLOOD, PLASMA/SERUM AND URINE FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE
To 1 mL of 100 mM phosphate buffer (pH= 6.0) and add internal standard*. Add 2 mL of blood, plasma/serum or urine. Add 2 mL of 100 mM phosphate buffer (pH= 6.0). Mix/vortex. Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. Centrifuge as appropriate 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN
1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying.
3. APPLY SAMPLE
Load at 1 mL/minute. 4. WASH COLUMN
1 x 3 mL D.I. H2O. Dry column (5 minutes at > 10 inches Hg). 1 x 2 mL hexane. 5. ELUTE METHAQUALONE
1 x 3 mL hexane/ethyl acetate (50:50); Collect eluate. 6. DRY ELUATE
Evaporate to dryness at < 40°C. Reconstitute with 100 µL ethyl acetate. 7. QUANTITATE
Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Compound Primary*** Secondary Tertiary Cerilliant #
Methaqualone 235 250 233 M-015 Hexobarbital* 221 157 156 H-013 Methaqualone-D7 240 257 240 M-014 * Suggested internal standard (s) for GC/MS: Hexobarbital, Methaqualone-D7 *** Quantitation ion SOURCE - UCT Internal Publication
DCN-903020-76
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115
METHAQUALONE IN BLOOD, PLASMA/SERUM, AND URINE USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part # ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE: To 1 mL of 100 mM phosphate buffer (pH= 6) add internal standard.* Add 1 mL of whole blood, serum/plasma or urine. Add 2 mL of 100 mM phosphate buffer (pH= 6). Vortex and centrifuge as appropriate.
2. CONDITION COLUMN: 1 x 1 mL CH3OH. 1 x 1 mL D.I. H2O. 1 x 0.5 mL 100 mM phosphate buffer (pH=6). Note: aspirate at < 3 inches Hg to prevent sorbent drying out.
3. APPLY SAMPLE: Load sample at 1-2 mL / minute.
4. WASH COLUMN: 1 x 3 mL D.I. H2O Dry column (5 minutes at > 10 inches Hg). 1 x 3 mL hexane Dry column (5 minutes at > 10 inches Hg).
5. ELUTE METHAQUALONE: 1 x 3 mL hexane/ ethyl acetate (50:50). Collect eluate at 1-2 mL /minute.
6. EVAPORATION: Evaporate eluates under a gentle stream of nitrogen < 40°.
7. Reconstitute the residue in 100 µL of CH3OH. Inject 5 µL.
INSTRUMENT CONDITIONS: Column: 150 x 2.1 mm (3 μm) SB-Aq ( Agilent Technologies) Mobile phase: Acetonitrile: 0.1% Formic acid (30: 70) Flow rate: 0.35 mL/ minute Column Temperature: ambient Detector: API 2000 MS/MS
Compound MRM Transistion Cerilliant #
Methaqualone 251.2/ 132.1 M-015
*Methaqualone-D7 258.2/138.2 M-014
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Chromatogram of Methaqualone/ Methaqualone-D7 (10 ng/ mL)
Recovery: > 90% (N=10)
LOD: 1.0 ng/ mL
DCN-903020-77
XIC of +MRM (87 pairs): 258.3/139.2 amu from Sample 3 (10) of nov22007.wiff (Turbo Spray) Max. 2.0e5 cps.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20Time, min
0.0
2.0e4
4.0e4
6.0e4
8.0e4
1.0e5
1.2e5
1.4e5
1.6e5
1.8e5
2.0e5
Inte
nsity
, cp
s
7.07
XIC of +MRM (87 pairs): 251.2/132.1 amu from Sample 3 (10) of nov22007.wiff (Turbo Spray) Max. 3.2e4 cps.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20Time, min
0.0
5000.0
1.0e4
1.5e4
2.0e4
2.5e4
3.0e4
3.2e4
Inte
nsity
, cp
s
7.23
11.19
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117
MEPERIDINE AND NORMEPERIDINE IN BLOOD, PLASMA/SERUM, AND URINE USING: 200 mg CLEAN SCREEN® DAU Part #: CSDAU020 LC/MS/MS June 5, 2009
1. PREPARE SAMPLE: To 1 mL of 100 mM phosphate buffer (pH 6) add internal standard.*
Add 1 mL of whole blood, serum/ plasma, urine. Add 2 mL of 100 mM phosphate buffer (pH 6).
Vortex and centrifuge as appropriate.
2. CONDITION COLUMN: 1 x 3 mL CH3OH 1 x 3 mL D.I. H2O 1 x 1 mL 100 mM phosphate buffer (pH 6). Note: aspirate at < 3 inches Hg to prevent sorbent drying out
3. APPLY SAMPLE: Load sample at 1-2 mL / minute
4. WASH COLUMN: 1 x 3 mL DI H2O 1 x 3 mL 100 mM acetic acid 1 x 3 mL CH3OH Dry column (5 minutes at > 10 inches Hg)
5. ELUTE MEPERIDINE/ NORMEPERDINE: 1 x 3 mL ethyl acetate; acetonitrile: ammonia (78: 20: 2 v/v)
Or
1 x 3 mL CH2Cl2/ IPA/ ammonia (78:20:2 v/v) Collect eluate at 1-2 mL /minute
6. EVAPORATION: Evaporate eluates to dryness under a gentle stream of nitrogen
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8. RECONSTITUTE sample in 50 μL of CH3OH. Inject 5 μL.
INSTRUMENT CONDITIONS:
Column: Silica Hydride (150 x2.0 4µm) MicroSolv Corp.
Mobile phase:
Time % Acetonitrile %0.1% Formic acid
0 90 10
5 30 70
6 90 10
10 90 10
Flowrate: 0.35 mL/ minute
Column Temperature: ambient
Detector: API 2000 MS/MS
Compound MRM Transition Cerilliant #
Meperidine 248.2/ 220.0 M-035
*Meperidine-D4 252.2/224.1 M-036
Normeperdidine 234.1/160.0 N-017
*Normeperidine-D4 238.1/164.0 N-021
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119
CHROMATOGRAM SHOWING:
Meperidine
Meperdine-D4
Recovery: > 90% (n=10)
LOD: 10 ng/ mL
DCN-905060-161
XIC of +MRM (94 pairs): 248.2/220.1 amu from Sample 2 (10) of aug292008tst2.wiff (Turbo Spray) Max. 1014.3 cps.
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5 7.0 7.5 8.0 8.5 9.0 9.5Time, min
0
100
200
300
400
500
600
700
800
900
1000
Inte
nsi
ty, c
ps
XIC of +MRM (94 pairs): 252.1/224.1 amu from Sample 2 (10) of aug292008tst2.wiff (Turbo Spray) Max. 1.1e4 cps.
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5 7.0 7.5 8.0 8.5 9.0 9.5Time, min
0.00
1000.00
2000.00
3000.00
4000.00
5000.00
6000.00
7000.00
8000.00
9000.00
1.00e4
Inte
nsi
ty,
cps
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120
PSILOCIN IN URINE FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE
To 5 mL of urine add internal standard and 2 mL of 100 mM phosphate buffer (pH 6.0). Mix/vortex. Add 12,500 to 25,000 units of ß-Glucuronidase, Mix/Vortex. Place the sample into a water bath at 45°C for 90 minutes. Remove from the bath and allow to cool. Centrifuge at 3,000 rpm for 10 min. Use the clear filtrate (discard the plug) for SPE. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN
1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE
Load at 1 mL/minute. 4. WASH COLUMN
1 x 3 mL D.I. H2O. 1 x 2 mL 20% Acetonitrile in water. 1 x 1 mL 100 mM Acetic Acid. Dry column (3 minutes at > 10 inches Hg). 1 x 2 mL Hexane. 1 x 3 mL Hexane/ Ethyl Acetate (50:50). 1 x 3 mL CH3OH. Dry Column (3 min at > 10 inches Hg). 5. ELUTE PSILOCIN
1 x 3 mL Dichloromethane/ Isopropanol/Ammonium Hydroxide (78:20:2). Collect eluant at 1 mL /min. NOTE: Prepare elution solvent daily. 6. DRY ELUATE
Evaporate to dryness at < 35°C. 7. DERIVATIZE Add 50 μL of ethyl acetate. Vortex mix. Add 50 μL of MSTFA* React for 30 minutes at 70˚C. Remove from heat NOTE: Do not evaporate MSTFA solution
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8. QUANTITATE
Inject 1 to 2 µL onto chromatograph. Monitor the following ions (Mass Selective Detection): Compound Primary** Secondary Tertiary Cerilliant #
PSILOCIN-TMS 290 348 73 (291) P-048 *PSILOCIN-D10-TMS 300 358 83(301) P-049 * Part # SMSTFA-0-1, 10, 25, 100 **Quantitation Ion GC CONDITIONS:
HP Model 5890 GC with a 5970 MSD COLUMN = DB5 (25 m x 0.32 mm ID x 0.17µm Film Thickness CARRIER GAS -Helium (5 psi head pressure) INJECTION Size = 1 µL SPLITLESS MODE Injection Temperature = 275°C Detector Temperature = 300 °C TEMPERATURE PROGRAM: 70° C hold 1 min then ramp to 240 °C at 20 °C/min hold for 2 minutes
SOURCE - The Detection of Psilocin in Human Urine Grieshaber A, Moore K, Levine B and Smith M Presented at the TRI-
SERVICES Meeting Nov 1999
DCN-903020-78
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122
FREE AND CONJUGATED PSILOCIN IN URINE By LC-MS/MS Using an 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part Number: ZSDAU020 September 1, 2009
6. PREPARE SAMPLE:
To 1 mL of 100 mM phosphate buffer (pH 6) add internal standard.*
Add 1 mL of urine sample.
Add 2 mL of 100 mM phosphate buffer (pH 6).
Vortex and centrifuge as appropriate.
URINE HYDROLYSIS:
To 1 mL of urine add internal standard* and 1 mL of ß-glucuronidase solution.
(ß-glucuronidase solution contains: 5,000 F units/mL Patella vulgata in 100 mM acetate buffer
(pH=5.0)).
Mix/vortex.
Hydrolyze for 3 hours at 65°C.
Centrifuge for 10 minutes at 2000 rpm and discard pellet.
7. CONDITION COLUMN:
1 x 3 mL CH3OH
1 x 3 mL D.I. H2O
1 x 1 mL 100 mM phosphate buffer (pH 6).
Note: aspirate at < 3 inches Hg to prevent sorbent drying out
8. APPLY SAMPLE:
Load sample at 1-2 mL / minute.
9. WASH COLUMN:
1 x 3 mL DI H2O
1 x 3 mL 100 mM acetic acid
1 x 3 mL CH3OH
Dry column (5 minutes at > 10 inches Hg).
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10. ELUTE PSILOCIN: 1 x 3 mL ethyl acetate; acetonitrile: ammonia (78: 20: 2 v/v)
Or
1 x 3 mL CH2Cl2/ IPA/ ammonia (78:20:2 v/v)
Collect eluate at 1-2 mL /minute.
6. EVAPORATION: Evaporate eluates to dryness under a gentle stream of nitrogen.
9. RECONSTITUTE sample in 50 μL of CH3OH. Inject 5 μL.
INSTRUMENT CONDITIONS:
Column: 50 x 2.1 mm (3 µm) SELECTRA® Phenyl (UCT, LLC)
MOBILE PHASE:
Time % Acetonitrile %0.1% Formic acid
0 20 80 5 20 80
Flowrate: 0.20 mL/ minute
Column Temperature: ambient
Detector: API 2000 MS/MS
Compound MRM Transition
Psilocin 205.2/58.2
*Psilocin-D10 215.2/68.2
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124
CHROMATOGRAM SHOWING:
Psilocin extracted from Urine
Recovery > 90% (n=10)
LOD: 10 ng/ mL
DCN‐900190‐172
XIC of +MRM (6 pairs): 285.1/205.2 amu from Sample 5 (psiloc urine SPE DAU200) of june162009DAUurine1a.wiff (Turbo Spray) Max. 12.5 cps.
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5Time, min
0
500
1000
1500
2000
2500
3000
3500
4000
4500
5000
5500
6000
6500
7000
7500
8000
8500
9000
95009780
Inte
nsity
, cp
s
2.071.44 3.14 3.42 3.830.22
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PSILOCIN IN BLOOD, PLASMA/SERUM, URINE USING: 200 g STYRE SCREEN® EXTRACTION COLUMN Part #: SSDBX0206 LC-MSMS September 1, 2009
1. PREPARE SAMPLE: To 1 mL of 100 mM phosphate buffer (pH 6) add internal standard.*
Add 1 mL of whole blood, serum/ plasma, or urine and vortex mix.
Add 3 mL of 100 mM phosphate buffer (pH 6).
Vortex and centrifuge as appropriate.
2. CONDITION COLUMN: Not required for this SPE
3. APPLY SAMPLE: Load sample at 1-2 mL / minute.
4. WASH COLUMN: 1 x 3 mL DI H2O
1 x 3 mL 100 mM acetic acid
1 x 3 mL CH3OH
Dry column (5 minutes at > 10 inches Hg).
5. ELUTE PSILOCIN: 1 x 3 mL ethyl acetate; acetonitrile: ammonia (78: 20: 2 v/v)
Or
1 x 3 mL CH2Cl2/ IPA/ ammonia (78:20:2 v/v)
Collect eluate at 1-2 mL /minute.
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6. EVAPORATION: Evaporate eluates to dryness under a gentle stream of nitrogen.
10. RECONSTITUTE sample in 50 μL of CH3OH. Inject 5 μL.
INSTRUMENT CONDITIONS:
Column: 50 x 2.1 mm (3 µm) SELECTRA ® Phenyl (UCT, LLC)
MOBILE PHASE:
Time % Acetontrile (0.1% Formic acid) %0.1% Formic acid
0 80 20
5 80 20
Flowrate: 0.3 mL/ minute
Column : 40 ˚C
Detector: API 3200 QTrap MS/MS
Compound MRM Transition
Psilocin 205.2/58.2
*Psilocin-D10 215.2/68.2
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CHROMATOGRAM SHOWING: PSILOCIN
Recovery > 90% (n=10)
LOD: 10 ng/ mL
DCN-903020-112
XIC of +MRM (6 pairs): 205.1/58.2 Da ID: psilocin from Sample 8 (psiloc mix DBX ph 8 urine 400) of july012009psilocurineDBXph81aa.wiff (... Max. 7.0e4 cps.
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5Time, min
0.0
5000.0
1.0e4
1.5e4
2.0e4
2.5e4
3.0e4
3.5e4
4.0e4
4.5e4
5.0e4
5.5e4
6.0e4
6.5e4
7.0e4
Inte
nsity
, cps
3.99
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PHENCYCLIDINE IN BLOOD, PLASMA/SERUM URINE AND TISSUE FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE To 1 mL of 100 mM phosphate buffer (pH= 6.0) add internal standard(s)*. Add 1 mL blood, plasma/serum, urine or 1 g (1:4) tissue homogenate. Mix/vortex. Add 2 mL of100 mM phosphate buffer (pH= 6.0). Mix / vortex.
Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. Centrifuge as appropriate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 to 2 mL/minute. 4. WASH COLUMN 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM acetic acid. 1 x 3 mL CH3OH. Dry column (5 minutes at > 10 inch Hg). 5. ELUTE PHENCYCLIDINE 1 x 3 mL Methylene Chloride/Isopropanol/ Ammonium Hydroxide (78:20:2). NOTE: Prepare elution solvent daily. Add IPA/ NH4OH, mix, and then add CH2Cl2. 6. DRY ELUATE Evaporate to dryness at < 40°C. Remove immediately upon completion. Reconstitute with 100 µL ethyl acetate. 7. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Compound Primary*** Secondary Tertiary Cerilliant # Phencyclidine-D5* 205 96 247 P-003 Phencyclidine 200 91 242 P-007
* Suggested internal standard for GC/MS: D5-Phencyclidine *** Quantitation Ion REFERENCE - UCT Internal Publication
DCN-903020-79
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PHENCYCLIDINE IN WHOLE BLOOD, SERUM / PLASMA AND URINE USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN PART #: ZSDAU020 LC/MS/MS February 3, 2009
1. PREPARE SAMPLE To 1 mL of 100 mM prosphate buffer (pH= 6) add internal standard*. Add 1 mL of blood, serum/plasma or urine. Add 2 mL of 100 mM phosphate buffer (pH= 6). Mix/vortex
Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate
Mix/vortex. Centrifuge as appropriate.
2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH 1 x 3 mL D.I. H2O 1 x 1 mL 100 mM phosphate buffer (pH= 6) Note: aspirate at < 3 inches Hg to prevent sorbent drying out
3. APPLY SAMPLE: Load sample at 1-2 mL / minute.
4. WASH COLUMN: 1 x 3 mL D.I. Water 1 x 3 mL 100 mM acetic acid 1 x 3 mL CH3OH Dry column (5 minutes at > 10 inches Hg).
5. ELUTE PHENCYCLIDINE: 1 x 3 mL ethyl acetate; acetonitrile: ammonia (78: 20: 2 v/v) Collect eluate at 1-2 mL / minute.
Note: Prepare elution solvent daily.
6. EVAPORATION: Evaporate eluates under a gentle stream of nitrogen < 40ºC.
7. RECONSTITUTE sample in 100 µL of CH3OH. Inject 5 µL.
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INSTRUMENT CONDITIONS: Column: 150 x 2.1 mm (3 µm) Zorbax: Agilent Technologies Mobile phase: Acetonitrile: 0.1% Formic acid (33:67) Flowrate: 0.35 mL/minite Column Temperature: ambient Detector: API 2000 MS/MS Compound MRM Transistion Cerilliant Phencyclidine 244.3/86.1 P-007 * Phencyclidine-D5 249.3/86.1 P-003
Recovery: > 90% (N=10) LOD: 1 ng/mL
DCN-903020-80
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FENTANYL / NORFENTANYL IN WHOLE BLOOD, SERUM / PLASMA AND URINE USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN PART #: ZSDAU020 LC/MS/MS February 3, 2009
1. PREPARE SAMPLE
To 1 mL of 100 mM phosphate buffer (pH= 6) add internal standard.*
Add 1 mL whole blood, plasma/ serum or urine. Add 2 mL of 100 mM phosphate buffer (pH= 6).
Mix/vortex.
Centrifuge as appropriate.
2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN
1 x 3 mL CH3OH
1 x 3 mL D.I. H2O
1 x 1 mL 100 mM phosphate buffer (pH 6)
Note: aspirate at < 3 inches Hg to prevent sorbent drying out
3. APPLY SAMPLE
Load sample at 1 ~2 mL / minute.
4 . WASH COLUMN:
1 x 3 mL D.I .H2O
1 x 3 mL 100 mM acetic acid
1 x 3 mL CH3OH
Dry column (5 minutes at > 10 inches Hg).
5. ELUTE FENTANYL / NORFENTANYL:
1 x 3 mL ethyl acetate; acetonitrile: ammonia (78: 20: 2 v/v)
Collect eluate at 1-2 mL / minute.
NOTE: Prepare elution solvent daily
6. EVAPORATION:
Evaporate eluates under a gentle stream of nitrogen < 40°C.
7. RECONSTITUTE SAMPLE IN 100 µL OF METHANOL.
Inject 5 µL.
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INSTRUMENT CONDITIONS: Column: 150 x 2.1 mm (3 µm) PFP Gold Thermofisher Mobile phase: Acetonitrile: 0.1 % Formic acid (50: 50) Flowrate: 035 mL/ minute Column Temperature: ambient Detector: API 2000 MS/MS Compound MRM Transistion Cerilliant # Fentanyl 333.2/188.3 F-002 *Fentanyl-D5 342.3/188.2 F-001 Norfentanyl 233.2/84.1 N-031 *Norfentanyl-D5 238.3/84.1 N-030
DCN-903020-81
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FENTANYL AND ANALOGUES IN BLOOD, PLASMA/SERUM, URINE AND TISSUE FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE
To 1 mL of 100 mM phosphate buffer (pH= 6) add internal standards*. Add 1- 5 mLof blood, plasmas/
serum, urine or 1 g (1: 4) tissue homogenate. Mix/ vortex.
Add 2 mL of 100 mMphosphate buffer (pH 6.0).
Mix/vortex.
Sample pH should be 6.0 ± 0.5.
Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate.
Centrifuge as appropriate.
2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN
1 x 3 mL CH3OH.
1 x 3 mL D.I. H2O.
1 x 1 mL 100 mM phosphate buffer (pH 6.0).
NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying.
3. APPLY SAMPLE
Load at 1 mL/minute.
4. WASH COLUMN
1 x 3 mL D.I. H2O.
1 x 1 mL 100 mM acetic acid.
1 x 3 mL CH3OH.
Dry column (5 minutes at > 10 inches Hg).
5. ELUTE FENTANYLS
1 x 3 mL CH2Cl2/IPA/NH4OH (78:20:2); Collect eluate at 1 to 2 mL/minute.
NOTE: Prepare elution solvent daily.
Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12).
6. CONCENTRATE
Evaporate to dryness at < 40°C.
Reconstitute with 50 µL ethyl acetate.
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7. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions:
Compound Primary Ion*** Secondary Tertiary Ceriliant #
Fentanyl 245 146 189 F-002
Fentany-D5l* 250 151 194 F-001
-Methylfentanyl 259 203 146
Para-Fluorofentanyl 263 164 207
3-Methylfentanyl 259 160 203
Thienfentanyl 245 146 189
Sufentanil 289 140
Carfentanil 303 187
Lofentanil 317 201 289
Alfentanil 289 268 194
* Suggested internal standard for GC/MS: D5-Fentanyl
*** Quantitation ion
SOURCE - UCT Internal Publication working with the Philadelphia Medical Examiner’s Office
DCN-903020-82
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135
FENTANYL / NORFENTANYL ON ORAL SWABS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN PART #: ZSDAU020 LC/MS/MS February 3, 2009
1. PREPARE SAMPLE Preparation of Standards: To separate tube add 0, 1, 5, 10 ng of Fentanyl / Norfentanyl in methanol. Evaporate off the solvent. Add 100 µL of drug free oral fluid. Vortex mix and allow to stand for 30 minutes. Take clean, dry (drug free) swab and swab up the oral fluid and allow standing for 15 minutes. Remove oral swab. SAMPLE PRE TREATMENT: To 200 µL of methanol (pH 6) add internal standard.* Insert oral swab into methanol and mix for 1 minute, add a further 100 µL of methanol, allow to stand for 10 minutes. Remove swab and 3 mL of 100 mM phosphate buffer (pH 6). Vortex and centrifuge as appropriate. 2. CONDITION COLUMN: 1 x 3 mL MeOH 1 x 3 mL H2O 1 x 1 mL 100 mM phosphate buffer (pH 6) Note: aspirate at < 3 inches Hg to prevent sorbent drying out 3. APPLY SAMPLE: Load sample at 1-2 mL / minute. 4. WASH COLUMN: 1 x 3 mL DI Water 1 x 3 mL 1% actate acid 1 x 3 mL Methanol Dry column (5 minutes at > 10 inches Hg). 5. ELUTE FENTANYL/ NORFENTANYL: 1 x 3 mL ethyl acetate; acetonitrile: ammonia (78: 20: 2 v/v) Collect eluate at 1-2 mL /minute. 6. EVAPORATION: Evaporate eluates under a gentle stream of nitrogen < 40ºC. 7. RECONSTITUTE sample in 20 µL of methanol. Inject 5 µL.
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INSTRUMENT CONDITIONS: Column: 150 x 2.1 mm (3 µm) PFP Thermofisher Mobile phase: Acetonitrile: 0.1% Formic acid (60:40) Flowrate: 0.35 mL/minite Column Temperature: ambient Detector: API 2000 MS/MS Compound MRM Transistion Cerilliant # Fentanyl 333.2/188.3 F-002 *Fentanyl-D5 342.2/188.2 F-001 Norfentanyl 233.2/84.1 N-031 *Norfentanyl-D5 238.3/84.1 N-030
Recovery: > 90% (N=100) LOD: 1 ng/mL
DCN-903020-83
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OPIATES IN URINE-OXIME TMS PROCEDURE FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE ACID HYDROLYSIS OF GLUCURONIDES: To 2 mL of urine add internal standard(s)* and 400 µL concentrated HCI. Add 200 µL 10% Hydroxylamine solution in DI H20. Mix/vortex. Heat to 90°C for 40 min in a heating block, or an autoclave for 15 minutes on a liquid cycle. Cool before proceeding. Centrifuge for 10 minutes at 2000 rpm and discard pellet. Add 500 µL 50% Ammonium Hydroxide. Mix/vortex. Adjust sample pH 5 - 6 by drop wise addition with 50% Ammonium Hydroxide. PREPARE ENZYME HYDROLYSIS OF GLUCURONIDES: To 2 mL of urine add internal standard(s)* and enzyme preparation in buffer Mix/vortex. Heat to 60 °C for sufficient time in a heating block (depends on analytes and enzyme) Add 200 µL 10% Hydroxylamine solution. Heat to 60°C for 30 min in a heating block. Adjust pH to 5 - 6 Centrifuge for 10 minutes at 2000 rpm and discard pellet. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 3 mL 100 mM phosphate buffer (pH 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 to 2 mL/minute. 4. WASH COLUMN 1 x 3 mL D.I. H2O. 1 x 3 mL 100 mM acetate buffer (pH 4.5). 1 x 3 mL CH3OH. Dry column (5 minutes at > 10 inches Hg). 5. ELUTE OPIATES 1 x 3 mL CH2Cl2/IPA/NH4OH (76:20:4) Collect eluate at 1 to 2 mL/minute. NOTE: Prepare elution solvent daily. Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12).
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6. DRY ELUATE Evaporate to dryness at < 40°C. 7. DERIVATIZE Add 100 µL ethyl acetate and 100 µL BSTFA (with 1% TMCS)***. Overlay with N2 and cap. Mix/vortex. React 45 minutes at 70°C. in a heat block. Remove from heat source to cool NOTE: Do not evaporate BSTFA solution. 8. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Compound Quant Ion** Secondary Tertiary Cerilliant # Meperidine-D4 251 222 250 M-036 Meperidine 247 218 246 M-035 Normeperidine-D4 TMS* 308 280 309 N-020 Normeperidine TMS* 305 276 304 N-017 Tramadol TMS 335 245 290 T-027 O-Desmethyltramadol TMS 393 378 303 T-035 N-Desmethyltramadol TMS 393 378 116 D-023 Pentazocine TMS 357 342 289 P-039 Codeine-D3 TMS* 374 359 346 C-039 Codeine-D6 TMS* 377 349 316 C-040 Codeine TMS 371 356 343 C-006 Norcodeine TMS 429 414 356 N-005 Dihydrocodeine TMS 373 315 358 D-019 Morphine-D3 TMS* 432 417 404 M-099 Morphine-D6 TMS* 435 420 404 M-085 Morphine TMS 429 414 401 M-005 Normorphine TMS 487 472 414 N-006 Diacetylmorphine 369 327 268 H-038 Hydrocodone Oxime-D3 TMS 389 300 374 H-008 Hydrocodone Oxime-D6 TMS 392 303 377 H-047 Hydrocodone Oxime TMS 386 297 371 H-003 Hydromorphone Oxime-D3 TMS 447 432 358 H-010 Hydromorphone Oxime TMS 444 429 355 H-004 Oxycodone Oxime-D3 TMS 477 462 420 O-006 Oxycodone Oxime-D6 TMS 480 465 420 O-008 Oxycodone Oxime TMS 474 459 417 O-002 Oxymorphone Oxime-D3 TMS 535 520 290 O-019 Oxymorphone Oxime TMS 532 517 287 O-004 *Suggested internal standards for GC/MS: D4-Meperidine, D4-Normeperidine, D3-Codeine, D3-Morphine D6-Hydrocodone D6-Oxycodone *Suggest trying D6-Codeine, and D6-Morphine for lowest LOD/LOQ *** Part # SBSTFA-1-1, 10, 25, 100
DCN-903020-84
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139
OPIATES IN HUMAN URINE- PROPYL DERIVATIVES FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part # ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE ACID HYDROLYSIS OF GLUCURONIDES: To 2 mL of urine add internal standard(s)* and 400 µL concentrated HCI. Add 200 µL 10% Hydroxylamine solution in DI H20. Mix/vortex. Heat to 90°C for 40 min in a heating block, or an autoclave for 15 minutes on a liquid cycle. Cool before proceeding. Centrifuge for 10 minutes at 2000 rpm and discard pellet. Add 500 µL 50% Ammonium Hydroxide. Mix/vortex. Adjust sample pH 5 - 6 by drop wise addition with 50% Ammonium Hydroxide. PREPARE SAMPLE-ENZYMATIC HYDROLYSIS OF GLUCURONIDES: To 2 mL of urine, add internal standard(s), and 1 mL of ß-Glucuronidase solution. ß-Glucuronidase solution contains 5,000 F units/mL Patella vulgata in 100 mM acetate buffer (pH 5.0). Hydrolyze for 3 hours at 60°C. Centrifuge for 10 minutes at 2000 rpm and discard pellet. Adjust sample pH to 5 - 6 with 1.0 N NaOH. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH 6.0); Aspirate. NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 to 2 mL/minute. 4. WASH COLUMN 1 x 3 mL D.I. H2O; Aspirate. 1 x 3 mL 100 mM acetate buffer (pH 4.5); Aspirate. 1 x 3 mL CH3OH; Aspirate. Dry column (5 minutes at > 10 inches Hg). 5. ELUTE OPIATES 1 x 3 mL ethyl acetate/isopropanol/ammonium hydroxide (84:12:4). 6. DRY ELUANT Evaporate to dryness at < 40°C.
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7. DERIVATIZE Add 200 µL of a 1:1 solution of proprionic anhydride**** pyridine.***** Make this solution fresh daily. Mix/vortex. React for 60 minutes at 60°C in a heater block. Remove from heat source to cool. Evaporate to dryness at < 40°C. Reconstitute the residue with 50 µL of ethyl acetate / methanol (70:30). * Suggested internal standard for GC/MS: Codeine-D3 and Morphine-D3 ** Quantitation ion *** Hydrocodone does not derivatize under these conditions. **** Part # SPIA-0-1,10, 25 ***** Part # SPYR-0-50
8. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Compound (Propyl) Primary Ion** Secondary Ion Tertiary Ion Cerilliant# Hydrocodone 299 242 214 H-003 Codeine 355 282 229 C-006 *Codeine-D3 358 285 232 C-007 Oxycodone 371 314 298 O-002 Hydromorphone 285 341 228 H-004 6-Acetylmorphine 327 268 383 A-003 Oxymorphone 357 300 413 O-004 Morphine 341 268 397 M-005 *Morphine-D3* 344 271 400 M-006 SOURCE: UCT Internal Publication working with the Philadelphia Medical Examiner’s Office
DCN-903020-85
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FREE (UNBOUND) OPIATES IN BLOOD, PLASMA/SERUM, TISSUE FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part # ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE To 1 mL of 100 mM phosphate buffer ( pH=6 ) add internal standards*. Add 1 mL of blood, plasma/ serum, or 1 g ( 1:4 ) tissue homogenate.
Mix/vortex and let stand 5 minutes Add 2 mL of 100 mM phosphate buffer ( pH 6.0 ). Mix/vortex . Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. Centrifuge for 10 minutes at 2000 rpm and discard pellet 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 mL/minute. 4. WASH COLUMN 1 x 2 mL D.I. H2O. 1 x 2 mL 100 mM acetate buffer (pH= 4.5). 1 x 3 mL CH3OH. Dry column (5 minutes at >10 inches Hg). 5. ELUTE OPIATES 1 x 3 mL CH2Cl2/IPA/NH4OH (78:20:2); Collect eluate at 1 to 2 mL/minute. NOTE: Prepare elution solvent daily. Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12). 6. DRY ELUATE Evaporate to dryness at < 40°C. 7. DERIVATIZE Add 50 µL ethyl acetate and 50 µL BSTFA (with 1% TMCS)***. Overlay with N2 and cap. Mix/vortex. React 30 minutes at 70°C. Remove from heat source to cool. NOTE: Do not evaporate BSTFA solution.
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8. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Compound Primary Ion**** Secondary Tertiary Cerilliant# Codeine- D3-TMS* 374 237 346 C-039 Codeine-TMS: 371 234 343 C-015 Morphine-D3-TMS* 432 290 327 M-003 Morphine-TMS 429 287 324 M-005 * Suggested internal standard for GC/MS: Codeine-D3, Morphine-D3 *** Part # SBSTFA-1-1,10, 25, 100 **** Quantitation ion
DCN-903020-86
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143
6-ACETYLMORPHINE (6MAM) IN URINE/ VITREOUS HUMOR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part # ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE To 2 mL of 100 mM phosphate buffer (pH 6.0), add internal standard* and Mix/vortex. Add 4 mL of sample Centrifuge for 10 minutes at 2000 rpm and discard pellet. Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH=6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 mL/minute. 4. WASH COLUMN 1 x 3 mL D.I. H2O. 1 x 2 mL 100 mM acetate buffer (pH 4.5). 1 x 3 mL CH3OH. Dry column (10 minutes at >10 inches Hg). 5. ELUTE 6-AM 1 x 3 mL CH2Cl2/IPA/NH4OH (78:20:2); Collect eluate at 1 to 2 mL/minute. NOTE: Prepare elution solvent daily. Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12). 6. DRY ELUATE Evaporate to dryness at < 40°C. 7. DERIVATIZE Add 50 µL ethyl acetate. Vortex mix and add 50 µL BSTFA (with 1% TMCS)***. Overlay with N2 and cap. Mix/vortex. React 45 minutes at 70°C. Remove from heat source to cool. NOTE: Do not evaporate BSTFA solution.
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8. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Compound Primary Ion**** Secondary Ion Tertiary Ion Cerilliant # 6-Acetylmorphine- D6 -TMS* 405 406 343 A-026 6-Acetylmorphine-TMS 399 400 340 A-009 * Suggested internal standard for GC/MS: *** Part # SBSTFA-1-1,10,25,100 **** Quantitation ion
DCN-903020-87
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BUPRENORPHINE AND NORBUPRENORPHINE IN BLOOD, URINE FOR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN
Part #: CSDAU206 February 3, 2009
1. PREPARE SAMPLE To 1 mL of 100 mM Acetate buffer ( pH= 5) add internal standard*. Mix/ vortex and add 1 mL of blood, plasma/ serum. Add 2 mL of 100 mM Acetate buffer (pH= 5) and mix/ vortex.
Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate
Centrifuge as appropriate.
ENZYME HYDROLYSIS OF GLUCURONIDES To 1 mL of 100 mM Acetate buffer add internal standard*. Add 1-5 mL of blood or urine. Mix/ vortex. Add 2 mL of 100 mM Acetate buffer (pH= 5).
Hydrolyze with Helix Pomatia (5,000 units/mL), heat for 3 hours at 60°C Cool before proceeding. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH 1 x 3 mL D.I.H2O. 1 x 1 mL 100 mM Acetate buffer (pH=5.0) NOTE: Aspirate at < 3 Inches Hg to prevent sorbent drying 3. APPLY SAMPLE Load at 1 to 2 mL/minute 4. WASH COLUMN 1 x 2 mL D.I. H2O. 1 x 3 mL 100 mM acetate buffer (pH=5.0) 1 x 3 mL Methanol Dry column (5-10 minutes at greater than 10 inches Hg / Full flow for Positive Pressure manifold). | 5. ELUTE Buprenorphine / Norbuprenorphine 1 x 3 mL methylene chloride / iso-propano / ammonium hydroxide (78/20/12). (Make elution solvent fresh). Collect eluate at 1 to 2 mL/minute NOTE: Before proceeding, insure there are no water droplets at the bottom of the collection tube. This may increase drying time and decrease BSTFA derivitizing efficiency. 6. DRY ELUATE Evaporate to dryness at < 40°C.
7. DERIVATIZE Add 50 µL ethyl acetate and 50 µL BSTFA (with 1 % TMCS). React 20 minutes at 70°C. Remove from heat source to cool. NOTE: Do not evaporate BSTFA 8. QUANTITATE Inject 1 to 2 µL onto gas chromatograph/mass spectrometer For MSD monitor the following ions:
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ANALYTE Primary lon Secondary Tertiary Cerilliant #
*Buprenorphine-D4-TMS 454 486 510 B-901
Buprenorphine-TMS 450 482 506 B-902
Norbuprenorphine-TMS 468 500 524 N-912
* Norbuprenorphine-D3-TMS 471 503 527 N-920
BUPRENORPHINE AND NORBUPRENORPHINE CHROMATOGRAM I
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BUPRENORPHINE AND NORBUPRENORPHINE CHROMATOGRAM II
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BUPRENORPHINE AND NORBUPRENORPHINE CHROMATOGRAM III
DCN-903020-88
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BUPRENORPHINE AND NORBUPRENORPHINE IN BLOOD, PLASMA/SERUM, AND URINE USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 LC/MS/MS February 3, 2009
1. PREPARE SAMPLE (FREE BUPRENORPHINE/ NORBUPRENORPHINE): To 1 mL of 100 mM phosphate buffer (pH= 6) add internal standards.* Add 1 mL of whole blood, serum/ plasma, urine. Add 2 mL of 100 mM phosphate buffer (pH= 6). Vortex and centrifuge as appropriate.
TOTAL (FREE AND CONJUGATED) BUPRENORPHINE/ NORBUPRENORPHINE: To 1 mL of Acetate buffer (pH= 5) containing 5000 F units/ mL β-Glucuronidase. Add internal standards*. To this solution add 1 mL of whole blood or urine. Mix/ Vortex . Hydrolyze for 3 Hrs at 65˚C. Allow to cool. Add 3 mL of 100 mM phosphate buffer (pH= 6) and mix. Centrifuge for 10 minutes at 2000 rpm and discard pellet. 2. CONDITION COLUMN: 1 x 3 mL CH3OH 1 x 3 mL D.I. H2O 1 x 1 mL 100 mM phosphate buffer (pH= 6). Note: aspirate at < 3 inches Hg to prevent sorbent drying out 3. APPLY SAMPLE: Load sample at 1-2 mL / minute. 4. WASH COLUMN: 1 x 3 mL DI H2O 1 x 3 mL 100 mM acetic acid. 1 x 3 mL CH3OH Dry column (5 minutes at > 10 inches Hg). 5. ELUTE BUPRENORPHINE/NORBUPRENORPHINE: 1 x3 mL ethyl acetate; acetonitrile: ammonia (78: 20: 2 v/v) Or 1 x 3 mL CH2Cl2/ IPA/ ammonia (78:20:2 v/v) Collect eluate at 1-2 mL /minute. 6. EVAPORATION: Evaporate eluates to dryness under a gentle stream of nitrogen. 7. Reconstitute sample in 50 μL of CH3OH.
Inject 5 μL.
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INSTRUMENT CONDITIONS: Column: 50 x 2.1 mm (3μm) Selectra® Phenyl (UCT Inc.) Mobile phase: Acetonitrile: 0.1% Formic acid 50 50 Flowrate: 0.35 mL/ minute Column Temperature: ambient Detector: API 2000 MS/ MS Compound MRM Transistion Cerilliant # Buprenorphine 468.4/55.1 B-902 *Buprenorphine-D4 472.4/59.1 B-901 Norbuprenorphine 414.3/83.1 N-912 *Norbuprenorphine-D3 417.4/55.1 N-920 Chromatogram of Buprenorphine/ Norbuprenorphine (1 ng/ mL) Buprenorphine Norbuprenorphine Buprenorphine-D4 Norbuprenorphine-D3
Recovery: > 90% (N=10) LOD: 0.5 ng/ mL
DCN-903020-89
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151
AMPHETAMINES, OPIATES, & PHENCYCLIDINE IN ORAL FLUID FOR GC/MS ANALYSIS USING: 50 mg CLEAN SCREEN® DAU EXTRACTION COLUMN Part #: ZSDAU005 February 3, 2009
1. PREPARE SAMPLE Add 100 - 500 µL of neat oral fluid sample to a clean tube. Add internal standard(s) and let sit for 10 minutes at room temperature. Add 800 µL of 100 mM phosphate buffer (pH= 6.0). Mix/vortex for 10 seconds. Sample pH should be 6.0 ± 0.5. Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 200 µL CH3OH. 1 x 200 µL D.I. H2O. 1 x 200 µL 100 mM phosphate buffer (pH=6.0). 3. APPLY SAMPLE Do not exceed 1 mL/minute. 4. WASH COLUMN 1 x 500 µL D.I. H2O. 1 x 500 µL 100 mM acetic acid. 1 x 500 µL CH3OH. Dry column (5 minutes at > 10 inches Hg). 5. ELUTION 1 x 800 µL CH2Cl2/IPA/NH4OH (70:26:4). Do not exceed 1 mL/minute. NOTE: Prepare elution solvent daily. Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12). 6. DRY ELUATE For amphetamines and PCP, add 100 µL of 5% trifluoroacetic acid in methanol after 5 min. drying. (5 min drying removes ammonia, addition of acid ionizes volatile analytes preventing loss) Evaporate to full dryness at < 40°C under a stream of N2. 7. DERIVATIZE For Amphetamines*: Add 50 µL PFPA (PFAA). Vortex. Overlay with N2 and cap. React 20 minutes at 70°C. Evaporate to dryness at < 40°C. Reconstitute with 50 µL ethyl acetate. For Opiates*: Add 200 µL of a 1:1 solution of propionic anhydride/pyridine. Make fresh daily. Vortex. React 60 minutes at 40°C. Evaporate to dryness at < 40°C. Reconstitute with 50 µL ethyl acetate. 8. QUANTITATE Inject 2 µL onto gas chromatograph. *Alternate derivatizations may be used. Phencyclidine does not derivatize. DCN-903020-90
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COCAINE & BENZOYLECGONINE IN ORAL FLUID FOR GC/MS ANALYSIS USING: 50 mg CLEAN SCREEN® DAU EXTRACTION COLUMN Part #: ZSDAU005 February 3, 2009
1. PREPARE SAMPLE
Add 100 - 500 µL of neat oral fluid sample to a clean tube.
Add internal standard(s)* and let sit for 10 minutes at room temperature.
Add 800 µL of 100 mM phosphate buffer (pH= 6.0).
Mix/vortex for 10 seconds. Sample pH should be 6.0 ± 0.5.
Adjust pH accordingly with 100 mM monobasic or dibasic sodium phosphate.
2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN
1 x 200 µL CH3OH.
1 x 200 µL D.I. H2O.
1 x 200 µL 100 mM HCl.
3. APPLY SAMPLE
Do not exceed 1 mL/minute.
4. WASH COLUMN
1 x 500 µL D.I. H2O.
1 x 500 µL 100 mM HCl acid.
1 x 500 µL CH3OH/D.I. H2O (50:50).
Dry column (5 minutes at > 10 inches Hg).
5. ELUTION
1 x 800 µL CH2Cl2/IPA/NH4OH (70:26:4).
Do not exceed 1 mL/minute.
NOTE: Prepare elution solvent daily. Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12).
6. CONCENTRATE ELUATE
Evaporate at < 40°C under a stream of N2
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7. DERIVATIZE*
Fluoroalkylate: Add 100 µL PFPA (PFAA) or HFIP.
Overlay with N2 and cap.
React 20 minutes at 70°C.
Evaporate to dryness at < 40°C.
Reconstitute with 50 µL ethyl acetate.
TMS: Add 25 µL BSTFA (w. 1% TMCS) and
25 µL ethyl acetate.
Overlay with N2 and cap.
Mix/vortex
React 30 minutes at 70°C.
Remove from heat and allow to cool.
NOTE: Do not evaporate BSTFA solution
8. QUANTITATE
Inject 2 µL onto gas chromatograph.
For MSD monitor the following ions:
Analyte Target (Quantitation) Ion Qualifier Ions Cerilliant # Cocaine 182 198, 303 C-008 *Cocaine-D3 185 201, 306 C-004 Benzoylecgonine-TMS 240 256, 361 B-007 *Benzoylecgonine-D8-TMS 243 259, 369 B-013
*Alternate derivatizations may be used.
DCN-903020-91
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154
THC FROM ORAL FLUIDS FOR GC/MS ANALYSIS USING: 200 mg CLEAN SCREEN® DAU EXTRACTION COLUMN Part #: ZSDAU020 February 3, 2009
1. PREPARE SAMPLE
To 1 mL of oral fluid specimen add 50 ng/mL internal standard (THCA D-9) and let sit for 10 minutes at room temperature.
Vortex for 10 seconds. Add .5 mL of glacial acetic acid and vortex for 10 seconds. 2. CONDITION CLEAN UP® EXTRACTION COLUMN Wash with 3 mL MeOH.
Wash with 3 mL DI H2O. Wash with 1 mL of 0.1 N HCl. 3. APPLY SAMPLE Pour sample into extraction column and pull though. Do not exceed 1 mL/min. 4. WASH COLUMN
Wash with 2 mL DI H2O. Wash with 2 mL of 70/30 (0.1 N HCl/Acetonitrile) Dry with vacuum for 5 minutes or until dry. Add 200 µL of Hexane. 5. ELUTION 2 mL of Hexane/Ethyl Acetate (50.50) Do not exceed 1 mL/min. 6. DRY ELUATE Dry under a stream of nitrogen at < 40°C. 7. DERIVATIZE Add 50 µL MSTFA. Vortex for 10 seconds. Heat for 20 minutes at 60°C. Vortex for 10 seconds while hot. Reconstitute in 50 µL of Ethyl Acetate. 8. QUANTITATE Inject 2 µL onto gas chromatograph. The Oral Fluid THC ions monitored are the following on Agilient 5973 ANALYTE Primary Ion Secondary Tertiary Cerilliant # THCA-TMS 371(Q), 386 387 T-005 THCA D9-TMS (Internal Standard)- 380(Q), 479 T-019
Contributed by:
Janet Putnam, Assistant Laboratory Director/RP Advanced Toxicology Network, Memphis, TN
DCN-903020-92A
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155
THC IN ORAL FLUID FOR GC/MS ANALYSIS USING: 50 mg CLEAN SCREEN® DAU EXTRACTION COLUMN Part #: ZSDAU005 February 3, 2009
1. PREPARE SAMPLE* Add 100 - 500 μL of neat oral fluid sample to a clean tube. Add internal standard. Vortex and let sit for 10 minutes at room temperature. Add 500 μL of glacial acetic acid. Mix/vortex for 10 seconds.
2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN
1 x 200 μL CH3OH. 1 x 200 μL D.I. H2O. 1 x 200 μL 100 mM HCl.
3. APPLY SAMPLE
Do not exceed 1 mL/minute. 4. WASH COLUMN
1 x 500 μL D.I. H2O. 1 x 500 μL 0.2 N HCl. 1 x 500 μL 100 mM HCl/Acetonitrile (70:30). Dry column (1 minute at > 10 inches Hg).
5. ELUTION
1 x 800 μL Ethyl Acetate/Hexane (25:75). Do not exceed 1 mL/minute.
6. DRY ELUATE
Evaporate at < 40°C under a stream of N2. 7. DERIVATIZE**
Add 25 μL BSTFA (with 1% TMCS), and 25 μL ethyl acetate. Overlay with N2 and cap. Vortex. React 30 minutes at 70°C. Remove from hear and allow to cool Note: Do not evaporate BSTFA solution
8. QUANTITATE
Inject 2 μL onto gas chromatograph. Monitor the following ions: Primary ion Secondary Tertiary Cerilliant # THC-TMS 371 386 303 T-005 THC-D3-TMS 374 389 318 T-003
* Sample is from either a neat sample capillary tube collection, or eluted off the cotton pad of a swab collection device with Oral Fluid THC buffer.
**Alternate derivatizations may be used.
DCN-903020-92B
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156
ANABOLIC STEROIDS IN URINE FOR GC OR GC/MS CONFIRMATIONS USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE - ß-GLUCURONIDASE HYDROLYSIS To 5 mL of urine add internal standard(s)* and 2 mL of ß-Glucuronidase. ß-Glucuronidase: 5,000 F units/mL Patella vulgata in 100 mM acetate buffer (pH 5.0). Mix/vortex. Hydrolyze for 3 hours at 65°C. Cool before proceeding. Centrifuge for 10 minutes at 2000 rpm and discard pellet. Adjust sample pH to 6.0 ± 0.5 with approximately 700 µL of 1.0 N NaOH. 2. PREPARE CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH= 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 to 2 mL/minute. 4. WASH COLUMN
1 x 3 mL 10% (v/v) CH3OH in D.I. H2O. Dry column (5 minutes at > 10 inches Hg). 1 x 1 mL hexane or hexane/ethyl acetate (50:50). ** Part # SMSTFA-0-1,10, 25, 100
5. ELUTE ANABOLIC STEROIDS (Choose a, b, c or d)
a. 1 x 3 mL CH2Cl2/IPA/NH4OH (78:20:2); Collect eluate at 1 to 2 mL/minute.
NOTE: Prepare elution solvent daily. Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12).
b. 1 x 3 mL CH2Cl2/IPA (80:20).
c. 1 x 3 mL ethyl acetate.
d. 1 x 3 mL CH3OH.
6. DRY ELUATE Evaporate to dryness at < 40°C. 7. DERIVATIZE Add 50 µL ethyl acetate and 50 µL MSTFA** (with 3% trimethylsilyliodide).
Over layer with N2 and cap. Mix/vortex.
React 20 minutes at 70°C. Remove from heat source to cool.
NOTE: Do not evaporate MSTFA solution.
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157
8. QUANTITATE Inject 1 to 2 µL onto chromatograph. Monitor the following ions (GC/MS):
Compound Primary* Secondary Tertiary OTHER Testosterone-TMS 432 301 209 19-Noretiocholanone-TMS 405 315 225 Oxymethalone 640 52 462 370,143 Dehydroepiandosterone-2TMS 432 327 297 10-Nortestosterone-2TMS 418 287 194 Oxymethalone Metabolite #1 640 52 462 143 Oxymethalone Metabolite #2 625 462 370 143 11-ß-Hydroxyandosterone 522 417 158 Methandienone 409 313 281 19-Norandosterone-2TMS 405 315 225 Alpha-Hydroxyetiocholanone 504 417
17--Epitestosterone-TMS 432 341 327 209
Stanazolol 472 381 342 149 *Quantitation Ion
DCN-903020-93
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158
DHEA, TESTOSTERONE, AND EPITESTOSTERONE IN URINE FOR GC OR GC/MS ANALYSIS USING: 200 mg CLEAN THRU® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE Pipette 5 mL of urine into borosilicate glass test tubes. Add internal standard*, adjust sample pH to 5.5 - 6.5 using concentrated sodium phosphate monobasic or dibasic.
Mix sample. Centrifuge samples at 3000 rpm for 5 min. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN
1 x 3 mL CH3OH.
1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH 6.0). 3. APPLY SAMPLE Pour supernatant onto column. Allow to flow via gravity. 4. WASH COLUMN
1 x 3 mL D.I. H2O. Dry column (10 minutes at > 10 mm Hg). 5. ELUTE STEROIDS
1 x 3 mL of CH3OH. Collect at 1 -2 mL/ minute. 6. ENZYMATIC HYDROLYSIS Dry eluate under a stream of nitrogen; Add 2 mL of 200 mM phosphate buffer (pH 7.0) and 250 units of ßglucuronidase Mix Vortex and allow to incubate at 50°C for 1 hour. Cool sample, cap and adjust the pH to
10-11 using a 1:1 mixture of NaHCO3/Na2CO3. 7. ADDITIONAL CLEAN-UP® Add 5 mL of n-butyl chloride to each sample. The tubes and shake vigorously for 10 minutes and then centrifuge at 3000 rpm for 5 min. Transfer the organic layer to clean test tubes and dry under a stream of nitrogen. Place dried sample in a desicator and further dry under vacuum for 30 minutes. 8. DERIVATIZE
Add 50 µL of MSTFA**/NH4l/dithioerythritol. (1000:2:5, V/W/W) and incubate at 70°C for 20 min. Centrifuge sample at 3000 rpm for 1 min. and transfer directly to GC injector vials.
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159
9. QUANTITATE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Compound Primary Ion*** Secondary Testosterone 432 417 Epitestosterone 432 417 DHEA 432 417
16 Hydroxytestosterone* 520 259
* Suggested internal standard at 20 ng/mL ** Part # SMSTFA-0-1, 10, 25, 100 *** Quantitation ion SOURCE - UCT Internal Publication
DCN-903020-94
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160
AMPHETAMINES IN URINE FOR GC/MS CONFIRMATIONS USING: 30 mg STYRE SCREEN® DBX EXTRACTION COLUMN Part #: SSDBX033 without Tips or SCDBX033 with CLEAN-THRU® Tips February 3, 2009
1. SAMPLE PREPERATION To 1 mL of urine add internal standard(s) and 1 mL 100mM phosphate buffer (pH 6.0). Mix/Vortex. 2. APPLY SAMPLE TO DBX COLUMN Load at a rate of 1 to 2 mL/min. 3. WASH COLUMN
1 x 1 mL DI H2O. 1 x 1 mL 100mM acetic acid. 1 x 1 mL MeOH. Dry column (3 mins at > 10 inches Hg). 4. ELUTE AMPHETAMINES
2 x 0.5 mL CH2Cl2/IPA/NH4OH (78/20/2), collect eluate at 1 to 2 mL/min. 5. CONCENTRATE ELUATE Add 1 drop 1% HCl in MeOH to eluate before evaporating. Evaporate to dryness at < 40°C. 6. DERIVATIZATION Add 50 uL ethyl acetate and 50 uL TFA (trifluoroacetic acid anhydride) then cap, mix/vortex. Heat for 15 mins at 70°C, allow to cool, then evaporate to dryness at < 40°C. Reconstitute with 100 µL ethyl acetate. 7. ANALYZE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Analyte (TFA) Target (Quantitation) Ion Qualifier Ions Cerilliant # Amphetamine 140 91, 118 A-049 *Amphetamine-D11* 144 98, 128 A-016 Methamphetamine 154 110, 118 M-009 *Methamphetamine-D11* 160 113, 126 M-059 *Suggested internal standards
DCN-903020-95
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161
CARBOXY-THC IN URINE FOR GC/MS CONFIRMATIONS USING: 30 mg STYRE SCREEN® DBX EXTRACTION COLUMN Part #: SSDBX033 without Tips or SCDBX033 with CLEAN-THRU® Tips February 3, 2009
1. SAMPLE PREPERATION (BASE HYDROLYSIS)
To 2 mL of urine add internal standard and 100 µL 10N NaOH. Mix/vortex. Hydrolyze for 20 mins at 60°C. Cool before proceeding. Adjust sample pH to 3.5 ± 0.5 with 1.0 mL glacial acetic acid.
2. APPLY SAMPLE TO DBX COLUMN Load at a rate of 1 to 2 mL/min. 3. WASH COLUMN
1 x 1 mL DI H2O. 1 x 1 mL 0.1M HCl/acetonitrile (70/30). Dry column (3 mins at > 10 inches Hg). 1 x 200 µL hexane. 4. ELUTE CARBOXY-THC 2 x 0.5 mL hexane/ethyl acetate (50:50); Collect eluate at 1 to 2 mL/min. Evaporate eluate to dryness at < 40°C. 5. DERIVATIZATION Add 50 µL ethyl acetate Vortex mix Add 50 µL BSTFA (1% TMCS,) then cap, mix/vortex. Heat for 20 minutes at 70°C, allow to cool. Note: Do not evaporate BSTFA solution. 6. ANALYZE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Analyte (TMS) Target (Quantitation) Ion Qualifier Ions Cerilliant # Carboxy-THC-TMS 371 473, 488 T-018
*Carboxy-THC-D3-TMS 374 476, 491 T-004
*Suggested internal standards
DCN-903020-96
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162
COCAINE / BENZOYLECGONINE IN URINE FOR GC/MS CONFIRMATIONS USING: 30 mg STYRE SCREEN® DBX EXTRACTION COLUMN Part #: SSDBX033 without Tips or SCDBX033 with CLEAN-THRU® Tip February 3, 2009
1. SAMPLE PREPERATION To 1 mL of urine add internal standard(s) and 300 µL. 100mM HCl. Mix/Vortex. 2. APPLY SAMPLE TO DBX COLUMN Load at a rate of 1 to 2 mL/min. 3. WASH COLUMN
1 x 1 mL DI H2O. 1 x 1 mL 100mM HCl. 1 x 1 mL MeOH. Dry column (3 mins at > 10 inches Hg). 4. ELUTE COCAINE/BENZOYLECGONINE
2 x 0.5 mL CH2Cl2/IPA/NH4OH (78/20/2), Collect eluate at 1 to 2 mL/min. 5. CONCENTRATE ELUATE Evaporate to dryness at < 40°C. 6. DERIVATIZATION Add 50 µL ethyl acetate and 50 µL BSTFA (1% TMCS) then cap, mix/vortex. Heat for 20 mins at 70°C, allow to cool. NOTE: Do not evaporate BSTFA solution. 7. ANALYZE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Analyte Target (Quantitation) Ion Qualifier Ions Cerilliant # Cocaine 182 198, 303 C-008 *Cocaine-D3 185 201, 306 C-004 Benzoylecgonine-TMS 240 256, 361 B-007 *Benzoylecgonine-D8-TMS 243 259, 369 B-013
*Suggested internal standards
DCN-903020-97
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163
OPIATES IN URINE FOR GC/MS CONFIRMATIONS USING: 30 mg STYRE SCREEN® DBX EXTRACTION COLUMN Part #: SSDBX033 without Tips or SCDBX033 with CLEAN-THRU® Tips February 3, 2009
1. SAMPLE PREPERATION (ENZYMATIC HYDROLYSIS)
To 1 mL of urine add internal standard(s) and 1.0 mL ß-Glucuronidase solution. (ß-Glucuronidase solution contains 5000 Funits/mL Patella Vulgata in 100mM acetate buffer, pH 5.0). Hydrolyze for 3 hours at 60°C. Cool, then centrifuge for 10 minutes at high speed and discard pellet. Adjust pH to 6.0 ± 0.5 with 1.0N NaOH.
NOTE: For unconjugated (free) opiates; to 1 mL urine, add internal standard(s) and 1 mL 100mM phosphate buffer (pH 6.0). Proceed to Step #2.
2. APPLY SAMPLE TO DBX COLUMN Load at a rate of 1 to 2 mL/min. 3. WASH COLUMN
1 x 1 mL DI H2O. 1 x 1 mL 100mM acetate buffer (pH 4.5). 1 x 1 mL MeOH. Dry column (3 mins at > 10 inches Hg). 4. ELUTE OPIATES
2 x 0.5 mL CH2Cl2/IPA/NH4OH (78/20/2), collect eluate at 1 to 2 mL/min. Evaporate eluate to dryness at < 40°C. 5. DERIVATIZATION Add 50 uL ethyl acetate and 50 µL BSTFA (1% TMCS), then cap, mix/vortex. React for 20 mins at 70°C, allow to cool. NOTE: Do not evaporate BSTFA solution. 6. ANALYZE Inject 1 to 2 µL onto gas chromatograph: For MSD monitor the following ions: Analyte (TMS) Target (Quantitation) Ion Qualifier Ions Cerilliant # Codeine-TMS 371 234, 343 C-006 *Codeine-D6-TMS 377 237, 349 C-040 Morphine-TMS 429 401, 414 M-005 *Morphine-D6-TMS 435 404, 420 M-085 6-Acetylmorphine-TMS 399 400, 340 A-009 6-Acetylmorphine-D6-TMS 405 406, 343 A-026 *Suggested internal standards
DCN-903020-98
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164
PHENCYCLIDINE IN URINE FOR GC/MS CONFIRMATIONS USING: 30 mg STYRE SCREEN® DBX EXTRACTION COLUMN Part #: SSDBX033 without Tips or SCDBX033 with CLEAN-THRU® Tips February 3, 2009
1. SAMPLE PREPERATION To 1 mL of urine add internal standard and 1 mL 100mM phosphate buffer (pH 6.0). Mix/Vortex. 2. APPLY SAMPLE TO DBX COLUMN Load at a rate of 1 to 2 mL/min. 3. WASH COLUMN
1 x 1 mL DI H2O. 1 x 1 mL 100mM acetic acid. 1 x 1 mL MeOH. Dry column (3 mins at > 10 inches Hg). 4. ELUTE PHENCYCLIDINE
2 x 0.5 mL CH2Cl2/IPA/NH4OH (78/20/2), Collect eluate at 1 to 2 mL/min. 5. CONCENTRATE ELUATE Add 1 drop 1% HCl in MeOH to eluate before evaporating. Evaporate to dryness at < 40°C. Reconstitute with 100 µL ethyl acetate. 6. ANALYZE Inject 1 to 2 µL onto gas chromatograph. For MSD monitor the following ions: Analyte Target (Quantitation) Ion Qualifier Ions Cerilliant # Phencyclidine 200 91, 242 P-007 *Phencyclidine-D5 205 96, 247 P-003 *Suggested internal standard
DCN-903020-99
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166
PURIFICATION OF SMALL MOLECULE LIBRARIES BY PHARMA-SIL® ION EXCHANGE SPE February 3, 2009
Principle: The generation of small molecule libraries for screening against biological targets has emerged as an area of intense interest in the pharmaceutical industry. Ion exchange chromatography has been demonstrated to expedite work up and purification of organic molecules synthesized in solution, and in the automated construction of small molecule libraries. The advantage of ion exchange chromatography over more traditional small molecule purification modes such as flash chromatography or HPLC is that one can reliably predict the elution characteristics of a broad range of molecules soley by the presence or absence of an ionizable site on the molecule.
Application: This application details the use of PHARMA-SIL® BCX1HL, a highly loaded strong cation exchange sorbent, for the purification of amine compounds from organic synthesis mixtures. In combinatorial chemistry and organic synthesis, reactions are often carried out in solvents such as DMSO or DMF in MeCl2. Once the reaction is complete, it is usually necessary to separate the products of the reaction from excess reagents and by-products. This can be done using a highly loaded. Strong cation exchanger to selectivelyretain the basic compounds from the reaction mixture. The sorbent can also be used as scavengers in the synthesis of ureas.
Chemistry of PHARMA-SIL® BCX1HL Sorbent
Si C C
H
H
H
H
SO3 H
Advantages of PHARMA-SIL® Based Sorbents
• Clean background • High recoveries • High levels of purification of anaytes • Applicable to a broad range of compounds • Simple easy to develop methods
Purification Profile
This profile is based on the use of a PHARMA-SIL® BCX1HL 500 mg column (columns are available with varying volumes). This column is capable of purification of up to 50 mg of basic product with a molecular weight of < 300amu. The method can be scaled up as necessary by using columns of higher bed mass of sorbent and increasing the solvent volumes proportionately. The following profile is meant to be a guideline for these types of purifications. Each drug class has its own specific requirements based on solubility, stability, and pKa and may require slight adjustments in methodology. Therefore think of the following profile as a beginning rather than a final method.
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Sample Pre-treatment
Samples may or may not require pretreatment before addition. The primary concern using ion exchangers is to adjust the pH of the compound of interest so that it is totally ionized. This may require the addition of an acid or buffer. Ion exchange can be done out of organic solvents such as methanol or ethyl acetate as long as the compound of interest is ionized.
Column Conditioning
Condition the column with the appropriate solvents. (ethylacetate/hexane, methanol/ethylacetate, methanol, often times the elution solvent makes an excellent conditioning solvent).
Column Equilibration
Equilibrate the column with the same solvent you pretreat the sample with.( buffer, ethylacetate/hexane, etc.)
Sample Application
Apply the sample to the column under gravity. Positive pressure or vacuum can also be used just be certain the application rate does not exceed 1-2 mL per min. The volume of the sample is not important and will probably be dictated by the equipment you use. The critical factor is concentration and capacity of the sorbent. If the concentration of the compound of interest exceeds the capacity of the sorbent you will not get the highest recovery of your compound. If you think this is a problem use a larger bed mass.
Product Purification
Elute neutral and polar reagents and byproducts with ethyl acetate, 25% methanol/ethylacetate, or buffers. (Caution: when using buffer washes be sure the pH of the buffer remains 2 pH units below the pKa of the compounds of interest you want to retain on the column)
Product Elution
Elute compound of interest with ethylacetate/ammonium hydroxide, ethylacetate/triethylamine, or ethylacetate/methanol/ammonium hydroxide.( the important factor is to be sure the pH of the elution solvent is 2 pH units above the pKa of your compound of interest. These solutions can be easily dried down to remove unwanted solvents before analysis.
DCN-903020-100
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168
PURIFICATION OF SMALL MOLECULE LIBRARIES TIN (Sn) REMOVAL BY PHARMA-SIL® ION EXCHANGE SPE February 3, 2009
Principle: The generation of small molecule libraries for screening against biological targets has emerged as an area of intense interest in the pharmaceutical industry. Ion exchange chromatography has been demonstrated to expedite work up and purification of organic molecules synthesized in solution, and in the automated construction of small molecule libraries. The advantage of ion exchange chromatography over more traditional small molecule purification modes such as flash chromatography or HPLC is that one can reliably predict the elution characteristics of a broad range of molecules solely by the presence or absence of an ionizable site on the molecule.
Application: This application details the use of PHARMA-SIL® TAX, a highly loaded weak cation exchange sorbent, for the removal of tin catalysts from organic synthesis mixtures. In combinatorial chemistry and organic synthesis tin compounds are common catalysts. Once the reaction is complete, it is usually necessary to separate the products of the reaction from the catalysts. If the catalyst is not removed it can interfere with further testing as well as ruin expensive analytical equipment. This can be done using a highly loaded weak cation exchanger to selectively remove the tin catalyst from the reaction mixture.
Chemistry of PHARMA-SIL® TAX Sorbent
SiH2C
H2C
H2C N
CH2
COOH
CH2CH2 N(CH2COOH)2
Advantages of PHARMA-SIL® Based Sorbents
• Complete removal of tin catalyst • Clean background • High recoveries • High levels of purification of anaytes • Applicable to a broad range of compounds • Simple easy to develop methods
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Purification Profile
This profile is based on the use of a PHARMA-SIL® TAX 500 mg column (columns are available with varying volumes). This column is capable of removal of up to50mg of tin. The method can be scaled up as necessary by using columns of higher bed mass of sorbent and increasing the solvent volumes proportionately
The following profile is meant to be a guideline for these types of purifications. Each drug class has its own specific requirements based on solubility, stability, and pKa and may require slight adjustments in methodology. Therefore think of the following profile as a beginning rather than a final method.
Sample Pre-treatment
Samples may or may not require pretreatment before addition. The primary concern using ion exchangers is to adjust the pH of the compound of interest so that it is totally ionized. This may require the addition of an acid or buffer. Ion exchange can be done out of organic solvents such as methanol or ethyl acetate as long as the compound of interest is ionized... Tin catalysts are strong cations and are charged across the complete pH range.
Column Conditioning
Condition the column 1 mL of Methanol followed by 1 mL of water.
Column Equilibration
Condition the column with buffer: If sample is a base, you want the pH at 7-8.
If sample is an acid, you want the pH at 3-4.
Sample Application
Apply the sample to the column under gravity. The tin will stick to the column. The volume of the sample is not important and will probably be dictated by the equipment you use. The critical factor is concentration and capacity of the sorbent. If the concentration of the tin of exceeds the capacity of the sorbent you will not get the highest removal of tin. If you think this is a problem use a larger bed mass.
Product Purification
Wash the column with 1 mL of buffer used in column equilibration.
Product Elution
Elute compound of interest with 1 mL of methanol.
DCN-903020-101
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170
PURIFICATION OF SMALL MOLECULE LIBRARIES
Palladium (Pd) REMOVAL BY PHARMA-SIL® ION EXCHANGE SPE February 3, 2009
Principle: The generation of small molecule libraries for screening against biological targets has emerged as an area of intense interest in the pharmaceutical industry. Ion exchange chromatography has been demonstrated to expedite work up and purification of organic molecules synthesized in solution, and in the automated construction of small molecule libraries. The advantage of ion exchange chromatography over more traditional small molecule purification modes such as flash chromatography or HPLC is that one can reliably predict the elution characteristics of a broad range of molecules solely by the presence or absence of an ionizable site on the molecule.
Application: This application details the use of PHARMA-SIL® TAX, a highly loaded weak cation exchange sorbent, for the removal of palladium catalysts from organic synthesis mixtures. In combinatorial chemistry and organic synthesis palladium compounds are common catalysts. Once the reaction is complete, it is usually necessary to separate the products of the reaction from the catalysts. If the catalyst is not removed it can interfere with further testing as well as ruin expensive analytical equipment. This can be done using a highly loaded weak cation exchanger to selectively remove the tin catalyst from the reaction mixture.
Chemistry of PHARMA-SIL® TAX Sorbent
SiH2C
H2C
H2C N
CH2
COOH
CH2CH2 N(CH2COOH)2
Advantages of PHARMA-SIL® Based Sorbents
• Complete removal of palladium catalyst • Clean background • High recoveries • High levels of purification of anaytes • Applicable to a broad range of compounds • Simple easy to develop methods
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Purification Profile
This profile is based on the use of a PHARMA-SIL® TAX 500 mg column (columns are available with varying volumes). This column is capable of removal of up to50mg of palladium. The method can be scaled up as necessary by using columns of higher bed mass of sorbent and increasing the solvent volumes proportionately
The following profile is meant to be a guideline for these types of purifications. Each drug class has its own specific requirements based on solubility, stability, and pKa and may require slight adjustments in methodology. Therefore think of the following profile as a beginning rather than a final method.
Sample Pre-treatment
Samples may or may not require pretreatment before addition. The primary concern using ion exchangers is to adjust the pH of the compound of interest so that it is totally ionized. This may require the addition of an acid or buffer. Ion exchange can be done out of organic solvents such as methanol or ethyl acetate as long as the compound of interest is ionized... Palladium catalysts are strong cations and are charged across the complete pH range. Adjust the sample to pH 9 with buffer or ammonium hydroxide.
Column Conditioning
Condition the column 1 mL of Methanol followed by 1 mL of water.
Column Equilibration
Condition the column with buffer of pH 9.
Sample Application
Apply the sample to the column under gravity. The palladium will stick to the column. The volume of the sample is not important and will probably be dictated by the equipment you use. The critical factor is concentration and capacity of the sorbent. If the concentration of the palladium exceeds the capacity of the sorbent you will not get the highest removal of palladium. If you think this is a problem use a larger bed mass.
Product Purification
Wash the column with 1mL of buffer used in column equilibration.
Product Elution
Elute compound of interest with 1mLl of methanol.
DCN-903020-102
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172
PURIFICATION OF SMALL MOLECULE LIBRARIES TFAA REMOVAL BY PHARMA-SIL® ION EXCHANGE SPE February 3, 2009
Principle: The generation of small molecule libraries for screening against biological targets has emerged as an area of intense interest in the pharmaceutical industry. Ion exchange chromatography has been demonstrated to expedite work up and purification of organic molecules synthesized in solution, and in the automated construction of small molecule libraries. The advantage of ion exchange chromatography over more traditional small molecule purification modes such as flash chromatography or HPLC is that one can reliably predict the elution characteristics of a broad range of molecules solely by the presence or absence of an ionizable site on the molecule.
Application: This application details the use of PHARMA-SIL® CHQAX, a highly loaded quaternary amine exchange sorbent, for the removal of acid catalysts from organic synthesis mixtures. In combinatorial chemistry and organic synthesis TFAA is a common catalyst. Once the reaction is complete, it is usually necessary to separate the products of the reaction from the catalyst. If the catalyst is not removed it can interfere with further testing as well as ruin expensive analytical equipment. This can be done using a highly loaded quaternary amine exchanger to selectively remove the acid catalyst from the reaction mixture.
Chemistry of PHARMA-SIL® CHQAX Sorbent
SiH2C
H2C
H2C N (CH3)3OH
+ -
Advantages of PHARMA-SIL® Based Sorbents
• Complete removal of acid catalyst • Clean background • High recoveries • High levels of purification of anaytes • Applicable to a broad range of compounds • Simple easy to develop methods
Purification Profile
This profile is based on the use of a PHARMA-SIL® CHQAX 500 mg column (columns are available with varying volumes). This column is capable of removal of up to 50mg of TFAA. The method can be scaled up as necessary by using columns of higher bed mass of sorbent and increasing the solvent volumes proportionately.
The following profile is meant to be a guideline for these types of purifications. Each drug class has its own specific requirements based on solubility, stability, and pKa and may require slight adjustments in methodology. Therefore think of the following profile as a beginning rather than a final method.
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173
Sample Pre-treatment
Samples may or may not require pretreatment before addition. The primary concern using ion exchangers is to adjust the pH of the compound of interest so that it is totally ionized. This may require the addition of a pH 7 buffer. Ion exchange can be done out of organic solvents such as methanol or ethyl acetate as long as the compound of interest is ionized... acid catalysts are strong anions and are charged across the complete pH range.
Column Conditioning
Condition the column with 1 mL of methanol followed by 1 mL of DI water.
Column Equilibration
Condition the column with pH 7 buffer.
Application
Apply the sample to the column under gravity. The TFAA will stick to the column. The volume of the sample is not important and will probably be dictated by the equipment you use. The critical factor is concentration and capacity of the sorbent. If the concentration of the TFAA exceeds the capacity of the sorbent you will not get the highest removal of TFAA. If you think this is a problem use a larger bed mass.
Product Purification
Wash the column with 1ml of buffer used in column equilibration.
Product Elution
Elute compound of interest with 1ml of methanol.
DCN-903020-103
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174
PURIFICATION OF SMALL MOLECULE LIBRARIES DESALTING SAMPLES USING PHARMA-SIL® REVERSE PHASE SPE February 3, 2009
Principle: The generation of small molecule libraries for screening against biological targets has emerged as an area of intense interest in the pharmaceutical industry. SPE has been demonstrated to expedite work up and purification of organic molecules synthesized in solution, and in the automated construction of small molecule libraries. Samples that have been synthesized in aqueous salt, buffer solutions, or low polarity organic solvents containing salts may require the removal of those salts prior to analysis. PHARMA-SIL® Reverse Phase SPE can be used to desalt these libraries.
Application: This application details the use of PHARMA-SIL® CEC18, a highly loaded reverse phase sorbent, for desalting synthetic mixtures. In combinatorial chemistry and organic synthesis salts are sometimes present in the reaction mixtures. Once the reaction is complete, it is usually necessary to separate the products of the reaction from the salts. If the salt is not removed it can interfere with further testing as well as ruin expensive analytical equipment. This can be done using a highly loaded reverse phase SPE column to selectively remove the salt from the reaction mixture.
Chemistry of PHARMA-SIL® CEC18 Sorbent
Si
O
O
O
Si
Si
CH3
CH3H3C
CH3
CH3H3C
(CH2)17 CH3
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Advantages of PHARMA-SIL® Based Sorbents
• Complete removal of salts • Clean background • High recoveries • High levels of purification of anaytes • Applicable to a broad range of compounds • Simple easy to develop methods
Purification Profile
This profile is based on the use of a PHARMA-SIL® CEC18 500 mg column (columns are available with varying volumes). This column is capable of removal of salts. The method can be scaled up as necessary by using columns of higher bed mass of sorbent and increasing the solvent volumes proportionately
The following profile is meant to be a guideline for these types of purifications. Each drug class has its own specific requirements based on solubility, stability, and pKa and may require slight adjustments in methodology. Therefore think of the following profile as a beginning rather than a final method.
Sample Pre-treatment
Samples may or may not require pretreatment before addition. The primary concern using desalting columns is to adjust the pH of the compound of interest so that it is totally molecular. This may require the addition of an acid or base. Desalting can be done out of low polarity organic solvents such as hexane or methylene chloride as long as the compound of interest is protonated.
Column Conditioning
Condition the column 1 mL of Methanol followed by 1 ml of water.
Column Equilibration
Condition the column with buffer: If sample is a base, you want the pH to be >9
If sample is an acid, you want the pH to be<2.5
Apply the sample to the column under gravity. The salts will flow through the column and the sample will stick to the column. The volume of the sample is not important and will probably be dictated by the equipment you use. The critical factor is concentration and capacity of the sorbent. If the concentration of the compound exceeds the capacity of the sorbent you will not get the highest recovery. If you think this is a problem use a larger bed mass.
Product Purification
Wash the column with 1mL of DI water or hexane. .
Product Elution
Elute compound of interest with 1mL of methanol, ethyl acetate, or the organic solvent of your choice.
DCN-903020-104
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ABUSED DRUGS IN CANINE OR EQUINE URINE USING: 500 mg XTRACKT® EXTRACTION COLUMN Part #: XRDAH515
February 3, 2009
1. a. PREPARE SAMPLE-ENZYMATIC HYDROLYSIS OF GLUCURONIDES To 5 mL of urine add internal standard(s) and 2 mL of ß-Glucuronidase 5,000 F units/mL Patella vulgata in 100 mM Acetate Buffer (pH 5.0). Mix/vortex. Hydrolyze at 65°C for 3 hours.
Centrifuge for 10 min. at 2000 rpm, discard pellet. b. BASE HYDROLYSIS OF GLUCURONIDES To 2 mL of urine add internal standard(s) and 100 µL of 10 N NaOH. Mix/vortex. Hydrolyze at 60 °C for 20 minutes. Centrifuge for 10 min. at 2000 rpm, discard pellet. COMBINE HYDROLYSATES Combine both hydrolysis products with 5 mL of 100 mM phosphate buffer (pH 6.0). Adjust sample pH = 6.0 ± 0.5 with 0.5 M Phosphoric acid. 2. CONDITION XtrackT® EXTRACTION COLUMN 1 x 5 mL CH3OH. 1 x 5 mL D.I. H2O. 1 x 3 mL 100 mM phosphate buffer (pH 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 to 2 mL / minute. 4. WASH COLUMN 1 x 3 mL 100 mM phosphate buffer (pH 6.0). 1 x 2 mL 1.0 M acetic acid. Dry column (5 minutes at > 10 inches Hg). 1 x 2 mL hexane. 5. ELUTE ACIDIC AND NEUTRAL DRUGS 1 x 4 mL methylene chloride; collect eluate at < 5 mL / minute. 6. ELUTE STEROIDS 2 x 4 mL ethyl acetate; collect eluate at < 5 mL / minute. 7. WASH COLUMN 1 x 5 mL CH3OH; aspirate. 8. ELUTE BASIC DRUGS 1 x 5 mL methylene chloride / isopropanol / ammonium hydroxide (78:20:2). NOTE: Prepare elution solvent fresh daily. 9. DRY ELUATE Evaporate to dryness at < 40°C. Reconstitute with 100 µL ethyl acetate. 10. QUANTITATE Spot onto TLC plate or inject 1 to 2 µL onto chromatograph
DCN-903020-105
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178
EXTRACTION OF TEAR GAS Chloroacetophenone (CS), o-Chlorobenzylidenemalononitrile (CN), and trans-8-methyl-N-vanillyl-6-nonenamide (OC) From Cloth for GC/MS Analysis Using: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE: If suspected tear gas is on clothing cut out a portion of the sprayed area and a“negative” control sample. Extract each into hexane. For canisters of suspected tear gas, spray onto a Kimwipe® and extract the sprayed area and a negative control into hexane.
2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN: 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE: Load at 1 mL/minute. 4. WASH COLUMN: 1 x 3 mL D.I. H2O. 1 x 3 mL Hexane. Dry column (5 minutes at > 10 inches Hg). 5. ELUTE ANALYTE: 1 x 1 mL CH3OH. 6. DRY ELUATE: Evaporate to dryness at < 40°C. 7. RECONSTITUTE Add 200 µL CH3OH. Mix/vortex. Transfer to GC/MS vial and cap. 8. QUANTITATE Inject 1-2 µL sample onto GC/MS. GC/MS Conditions: Column: HP Ultra 1, Crosslink Methyl Silicone 12 m x 0.2 mm I.D. x 0.33 µm film thickness GC Oven: Initial Temp. = 100° C Initial Time = 3.00 min. Ramp = 17°C/min. Final Temp. = 305°C. Final Time = 3.0 min. Injection Port Temp. = 250°C. Transfer line Temp. = 280°C. SCAN Acquisition = 41 amu to 400 amu: Start time = 2.00 min. Retention times: Compound CN CS OC RT (min.) @4.9 @7.4 @13.4
DCN-903020-106
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179
GLYCOPYRROLATE (ROBINUL) FROM EQUINE URINE BY LC-MSMS USING: 500 mg CLEAN UP® CCX2 EXTRACTION COLUMN Part #: CUCCX25Z February 3, 2009
1. SAMPLE PREPARATION
Buffer 5 mL of urine to pH 7.0 by adding 3 mL of 100 mM phosphate buffer (pH 7.0).
Add (12.5 ng) of mepenzolate (internal standard).
Add 5 mL of water to the sample.
Vortex or shake thoroughly.
Centrifuge for 5 min at 800 rpm.
2. CONDITION CLEAN UP® EXTRACTION COLUMN
1 x 3 mL CH3OH.
1 x 3 mL D.I. H2O.
1 x 1 mL 100 mM phosphate buffer (pH 7.0).
3. APPLY SAMPLE
Decant supernatant onto SPE column.
Load at 1 to 2 mL / min.
4. WASH COLUMN
5 mL of CH3OH.
5 mL of D.I. H2O.
Dry column (5 min > 10 inches Hg).
5. ELUTE GLYCOPYRROLATE
1 x 4 mL CH3OH/0.5 M NH4OAC buffer, pH 3.0 (95:5).
6. DRY ELUTE
Evaporate to dryness at 60°C.
Reconstitute with 100 µL CH3OH.
7. QUANTITATE
Inject 10 µL onto HPLC.
DCN-903020-107
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LC/MS METHOD FOR EXTRACTING ETHYL GLUCURONIDES FROM URINE USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: CSETG203 February 3, 2009
1. PREPARE SAMPLE: Add 50 µL of formic acid to 1 mL of urine. (Internal standard EtG –d5 at 200 ng/mL.) Centrifuge for 10 minutes at 3000 rpm. Decant solution onto SPE cartridge previously conditioned with 2 mL of 1% formic acid. Wash sample column with 2 mL DI water and dry at 10 mm Hg for 10 minutes. Elute the EtG with 2 mL of 1% formic acid/ Methanol solution. Evaporate to dryness under stream of nitrogen. Reconstitute with 1 mL of Methanol. The solution should be filtered through a 0.2 µm filter for LC/MSanalysis. 2. SUGGESTED LC/MS PROCEDURE:
Prepare 1.0 M ammonium acetate buffer by weighing 3.8 g ammonium acetate and dilute to 5L. (Option: 0.77 g diluted to 1L DI water). This solution should be filtered through 0.2 µm filer for LC use. LC Mobile Phase –ammonium acetate/ acetonitrile (10/90) at a flow rate of 0.2 mL/minute. Injection Volume – 10 mL.
Detection Limit – 10 ng/mL 3. SUGGESTED LC/MS/MS PARAMETERS: Tuning the MS: Tune MS using PPG
Tune MS using 500 ng/mL EtG, mobile phase 0.2 mL/min, EtG solution 1 µL/min. Optimize ion source and mass analyzer to signal 221 m/z. Determine the collision voltage for ion 75 m/z and reference ions 85 and 113 m/z. Tune file uses scan rate of 0.3 s; acquisition time 6 minutes. Quantifier ion is 75 and qualifier ions are 85 and 113. Collision voltage 75(16), 85(16) / and 113 (14.5).
NOTES:
The prepared buffer should be filtered 30-45 minutes (equilibrated) before analysis for constant results.
After sample elution from the column, the LC must be programmed to flush the column using an acetonitrile / DI water
gradient (50/50 to 90/10) to avoid carryover from previous specimen.
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ETHYL GLUCURONIDES CHROMATOGRAM
DCN-903020-108
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TACROLIMUS, CYCLOSPORIN AND RAPAMYCIN IN WHOLE BLOOD USING: 30 mg STYRE SCREEN® EXTRACTION COLUMN Part #: SSDVB031 February 3, 2009
1. PREPARE SAMPLE
Add 50 mcL whole blood and 50 mcL of 0.1 M ZnSO4 to a centrifuge tube. Vortex.
Add 500 mcL methanol and internal
standards. Vortex. Centrifuge. Transfer supernate to a clean tube,
add 500 mcL D.I. water. Vortex.
2. CONDITION CLEAN UP® EXTRACTION COLUMN
1 x 2 mL CH3OH.
1 x 2 mL D.I. H2O.
NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying.
3. APPLY SAMPLE
Decant the sample onto the column. Load at 1 to 2 mL/minute.
4. WASH COLUMN
1 x 2 mL D.I. H2O.
Dry column (20 minutes at > 10 inches Hg).
5. ELUTE ANALYTES
Add 750 mcL of ethyl acetate.
Collect eluate at 1 to 2 mL / minute.
7. ANALYSIS
The sample may be injected as is for HPLC analysis.
NOTES:
Suggested internal standards:
Cyclosporin Cyclosporin-D
Tacrolimus Ascomycin
Rapamycin Desmethoxyrapamycin
DCN-903020-109
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183
MANUAL METHOD FOR IMMUNOASSAY: PRELIMINARY SCREENING IN WHOLE BLOOD USING: 200 mg CLEAN SCREEN® EXTRACTION COLUMN Part #: ZSDAU020 without Tips or ZCDAU020 with CLEAN-THRU® Tips February 3, 2009
1. PREPARE SAMPLE To 1 mL of blood add 4 mL of H2O (5 < pH< 7). Mix/vortex. Let stand for 5 minutes to Iyse red blood cells. Centrifuge for 10 minutes at 2000 rpm and discard pellet. Add 2 mL of 100 mM phosphate buffer (pH 6.0). Mix/vortex. Sample pH should be 6.0 ± 0.5. Adjust pH with 100 mM monobasic or dibasic sodium phosphate. 2. CONDITION CLEAN SCREEN® EXTRACTION COLUMN 1 x 3 mL CH3OH. 1 x 3 mL D.I. H2O. 1 x 1 mL 100 mM phosphate buffer (pH 6.0). NOTE: Aspirate at < 3 inches Hg to prevent sorbent drying. 3. APPLY SAMPLE Load at 1 to 2 mL/minute. 4. WASH COLUMN 1 x 3 mL D.I. H2O 1 x 1 mL 100 mM acetic acid. Dry column (5 minutes at > 10 inches Hg). 1 x 2 mL hexane. 5. ELUTE ACIDIC AND NEUTRAL DRUGS 1 x 3 mL hexane/ethyl acetate (50:50). Collect eluate at < 5 mL/minute. Remove collection tubes. 6. WASH COLUMN 1 x 3 mL CH3OH. Dry column (5 minutes at > 10 inches Hg). 7. ELUTE BASIC DRUGS Replace collection tubes from step 5 1 x 3 mL CH2Cl2/IPA/NH4OH (78:20:2); Collect eluate at 1 to 2 mL/minute. NOTE: Elute into tubes containing the acidic and neutral drugs. Prepare elution solvent daily. Add IPA/NH4OH, mix, then add CH2Cl2 (pH 11-12). 8. DRY ELUATE-COMBINE ELUATES (STEP 5 & 7) Evaporate to a volume 100 µL at < 40°C. 9. RECONSTITUTE Add 900 µL of normal saline (Sample volume is now its original 1.0 mL). 10. ANALYZE BY EMIT Process according to urine drug screening protocols provided by immunoassay manufacturer. SOURCE - UCT Internal Publication DCN-903020-110
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VITAMIN D AND METABOLITES EXTRACTION USING: 200 mg CLEAN SCREEN® VITAMIN D COLUMN Part #: CEC30126 LC-UV (PDA), LC-MS/MS May 7, 2009
1. PREPARE SAMPLE: To 0.2 to 0.5 mL of sample add an equal volume of deproteinating agent+ (containing internal standard)**
Vortex mix and centrifuge as appropriate.
Transfer organic phase to clean, dry glass tube.
Evaporate to approximately 100 µL at < 40 ˚C.
Dilute with 3 mL of DI H2O.
Vortex mix.
2. CONDITION COLUMN: 1 x 3 mL CH3OH
1 x 3 mL D.I. H2O
Note: aspirate at < 3 inches Hg to prevent sorbent drying out
3. APPLY SAMPLE: Load sample at 1-2 mL / minute.
4. WASH COLUMN: 1 x 3 mL DI H2O
Dry column (5 minutes at > 10 inches Hg).
5. ELUTE VITAMIN D AND METABOLITES: 1 x 3 mL CH3OH
6. EVAPORATION: Evaporate eluates to dryness at < 40 ˚C under a gentle stream of nitrogen
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7. LC-MS/MS Reconstitute sample in 50 μL of CH3OH. Inject 10 μL.
LC-UV (includes PDA)
Reconstitute sample in 100 μL of DI H2O Inject 50 μL
INSTRUMENTAL CONDITIONS: Column: 150 x 2.1 mm (3µm) SB-aq (Agilent Technologies)
Mobile phase: 90: 10 CH3OH (containing 0.1% Formic acid): 0.1% Formic acid aqueous
Flowrate: 0.2 mL/ minute
UV (PDA): 260 nm
MS/MS MRM Transition (M-H2O) Vitamin D3 386.5/256.7 25 Hydroxy Vitamin D3 383.1/211.1 25 Hydroxy Vitamin D2 395.4/209.1
PDA Chromatogram of Vitamin D ( Rt=7.3 min)
* Deproteinating agents include acetonitrile, acetone, or methanol.
** Internal Standard: 25 Hydroxy Vitamin D3-D6: MRM Transition: 389.1/211.1
DCN-907050-160
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Sample Preparation: Whole Blood/ Serum/ Plasma
The following methods may be employed with whole blood, serum or plasma samples to disrupt protein binding to drug materials.
pH modification:
1. pH adjustment: Extreme pH values i.e. greater than 9 or less than 3. In these cases, buffer strengths greater than or equal to 0.1 M should be used.
2. pH adjustment in stages: i.e. buffering first to pH 5 then to pH 3.
Precipitation:
1. Employing a polar solvent e.g. Acetonitrile, Acetone, or Methanol (in general, two parts organic solvent to one part biological sample), mix/ vortex then centrifuge down the sample leaving the precipitate at the base of the sample vessel. The supernatant can be removed by decantation.
2. Inorganic salts such as ammonium sulfate or zinc sulfate may also be employed to disrupt protein binding and precipitate the proteins.
Acid Treatment:
1. In this process, biological samples may be treated with Formic, Perchloric, or Trichloroacetic acids e.g 50 μL of 0.1 M perchloric acid per 500 μL of plasma or 1:1 dilution of the sample with 10% w/v trichloroacetic acid. Disruption of the protein binding probably occurs through the formation of the acid salt.
Sonication:
1. The addition of an appropriate buffer e.g phosphate or acetate may be followed by sonication of the sample for a period of approximately 15 minutes. The sample is then vortex mixed and centrifuged. The supernatant may be decanted off and the pellet discarded.
Enzymic Hydrolyis:
In this procedure, a proteolytic enzyme such as β- Glucuronidase is used to disrupt the protein binding and cleave the drug.
1. To the sample is added 1 mL of an appropriate buffer for the enzyme e.g. 1 mL of 1.0 mL of acetate buffer (pH 5.0) with 100 μL of β- Glucuronidase. The sample is then heated at 60˚C for approximately 60 minutes. The sample is cooled to room temperature, vortex mixed and may be centrifuged,
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Sample Preparation: Urine
The following methods may be employed with urine samples.
pH modification:
1. pH adjustment: Extreme pH values i.e. greater than 9 or less than 3. In these cases, buffer strengths greater than or equal to 0.1 M should be used. 2. pH adjustment in stages: i.e. buffering first to pH 5 then to pH 3.
Precipitation:
1. Employing a polar solvent e.g. Acetonitrile, Acetone, or Methanol (in general, two parts organic solvent to one part biological sample), mix/ vortex then centrifuge down the sample leaving the precipitate at the base of the sample vessel. The supernatant can be removed by decantation.
2. Inorganic salts such as ammonium sulfate or zinc sulfate may also be employed to precipitate the proteins.
Acid Treatment:
1. In this process, biological samples may be treated with Formic, Perchloric, or Trichloroacetic acids e.g 1:1 dilution of the sample with 10% w/v trichloroacetic acid. The samples are vortex mixed and centrifuged. The supernatant can be decanted off.
Filtration:
1. The sample may be simply filtered by passing it through a micro porous filter e.g 45 μm nylon .
Enzymic Hydrolyis:
In this procedure, a proteolytic enzyme such as β- Glucuronidase is used to disrupt the protein binding and cleave the drug.
1 To the sample is added 1 mL of an appropriate buffer for the enzyme e.g. 1 mL of 1.0 mL of acetate buffer (pH 5.0) with 100 μL of β- Glucuronidase. The sample is then heated at 60˚C for approximately 60 minutes. The sample is cooled to room temperature, vortex mixed and may be centrifuged.
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Sample Preparation: Tissues
The following methods may be employed with tissues sample to disrupt protein binding to drug materials.
Tissue should be thawed, if frozen. The tissue sample can then be transferred onto a clean disposable weighing boat, avoiding transfer of blood/liquid as much as possible. Cut tissue into small pieces with scalpel, avoiding vessels or other tough membranes/sections.Tare a clean blender cup on the balance and add tissue pieces to desired weight (i.e. ~10g).Add the appropriate amount of DI water to the blender cup to create a 1:4 dilution (e.g. 10g tissue + 30g DI water). Homogenize sample.Transfer homogenized tissue to a suitable labelled container (e.g. 50-mL plastic screw-cap).
pH modification:
1 pH adjustment: Extreme pH values i.e. greater than 9 or less than 3. In these cases, buffer strengths greater than or equal to 0.1 M should be used.
2 pH adjustment in stages: i.e. buffering first to pH 5 then to pH 3.
Precipitation:
2 Employing a polar solvent e.g. Acetonitrile, Acetone, or Methanol ( in general, two parts organic solvent to one part biological sample), mix/ vortex then centrifuge down the sample leaving the precipitate at the base of the sample vessel. The supernatant can be removed by decantation.
2 Inorganic salts such as ammonium sulfate or zinc sulfate may also be employed to precipitate the proteins.
Acid Treatment:
1 In this process, biological samples may be treated with Formic, Perchloric, or Trichloroacetic acids e.g 1:1 dilution of the sample with 10% w/v trichloroacetic acid. The samples are vortex mixed and centrifuged. The supernatant can be decanted off.
Enzymic Hydrolyis:
In this procedure, a proteolytic enzyme such as β- Glucuronidase is used to disrupt the protein binding and cleave the drug.
1 To the sample is added 1 mL of an appropriate buffer for the enzyme e.g. 1 mL of 1.0 mL of acetate buffer (pH 5.0) with 100 μL of β- Glucuronidase. The sample is then heated at 60˚C for approximately 60 minutes. The sample is cooled to room temperature, vortex mixed and may be centrifuged.
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SELECTRA-SIL®
Derivatizing Reagents
These reagents are manufactured by UCT to exact standards of purity and consistency.
Benefits of Derivatization:
Improved chromatographic resolution - increased volatility - reduced intermolecular hydrogen bonding - separation of structurally similar compounds.
Improved mass spectral characteristics - higher mass fragments - greater S/N (signal to noise ratio) - more unique masses- increased abundance/sensitivity of molecular ions.
Improved thermal stability of some compounds - reduced thermal degradation – higher temperatures to speed analysis.
Increased instrument and lab productivity - fewer reinjections or repeats due to peak tailing - high confidence in analyte identification and quantitation - easy to perform - inert by-products of derivatization will not degrade capillary column performance.
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SELECTRA-SIL®
Derivatizing Reagents
Silylation Reagents
Silyl derivatives are the most widely used chemical derivatization reagents, especially for gas chromatography. Silyl derivatization requires an “Active” hydrogen as seen in acids, alcohols, thiols, amines, amides, enolizable ketones and aldehydes to be replaced by a trimethysilyl group or tertiary butyl dimethylsily. These reagents must be protected from moisture.
BSTFA and BSTFA with TMCS (1% or 10%) (N,O-bis(trimethylsilyltrifluoroacetamide) with/without Trimethylchlorosilane) • Trimethylsilyl donor strength equal to BSA • Reacts with the same classes of compounds as BSA producing the same derivatives. • TMCS (Trimethylchlorosilane) added to derivatize amides, many secondary amines and hindered hydroxyls that are not reactive to BSTFA alone. • Increased volatility of the reaction by-products over the non-fluorinated derivatives of BSA
MSTFA and MSTFA with 1% TMCS
(N-methyl-N-trimethylsilyltrifluoroacetamide) with/without Trimethylchlorosilane) • A trimethylsilyl adduct with donor strength equal to BSA and BSTFA • Most volatile of the TMS derivatives often elutes at the solvent front of the GC. • Addition of TMCS aids in the derivatization of amides, secondary amines and hindered hydroxy groups.
MTBSTFA and MTBSTFA with 1% TBDMCS
(N-methyl-N-(t-butyldimethysilyl)-trifluoroacetamide with/without T-butyldimethychlorosilane) • Derivatizes hydroxyl, carboxyl, thiol and primary and secondary amines • Addition of TBDMCS (tertiary butyl-dimethylchlorosilane) increases the silylation ability of this reagent to derivatize hindered alcohols and amines • MTBSTFA derivatives are more stable than TMS derivatives to hydrolysis • Reaction by-products are neutral and volatile
TMCS
(Trimethylchlorosilane) • Catalysts used to increase the reactivity of other silylation reagents • Used to form trimethysilyl esters of organic acids.
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SELECTRA-SIL®
Derivatizing Reagents Acylation Reagents
Acylation is the conversion of compounds with active hydrogens (such as –SH, –OH and –NH) into thioesters, esters and amides respectively by forming a carboxylic acid derivative. The primary use of acylation chemistry is to form compounds that chromatograph better and have a greater detectability than the parent molecule. For example, addition of a perfluoro group will improve the detectability of analytes if an electron capture detector is used. PERFLUORO ACID ANHYDRIDES MBTFA (N-Methyl-bis[Trifloroacetamide]) • This reacts with primary and secondary amines, hydroxyl and thiol groups under mild, nonacidic conditions. • Produces very volatile derivatives of carbohydrates. • Can be used to selectively acylate amines in the presence of hydroxyl and carboxyl groups that have been protected by silylation. HFAA (Heptafluorobutyric Acid Anhydride, HFBA) • React readily with alcohols, phenols and amines producing stable volatile derivatives for TCD, FID, ECD and other detectors. • It is suggested that fluoro alcohols (such as PFPOH an HFIP) be used to react with the acidic by-products of these to drive the reaction to completion. PFAA (Pentafluoropropionic Acid Anhydride, PFPA) • React readily with alcohols, phenols and amines producing stable volatile derivatives for TCD, FID, ECD and other detectors. • Commonly used in the determination of benzoylecgonine and opiates. • Acidic by-products of this reaction must be removed before the derivative can be injected onto the GC. TFAA (Trifluoroacetic Acid Anhydride) • React readily with alcohols, phenols and amines producing stable volatile derivatives for TCD, FID, ECD and other detectors. • Most reactive of all the perfluoroacid anhydrides and frequently used to identify methamphetamine. TFAI (Trifluoroacetylimidazole) • React readily with alcohols, phenols and amines producing stable, volatile derivatives for TCD, FID, ECD and other detectors. • Offer considerable advantages over the anhydrides for the preparation of perfluoroacyl derivatives; the reactions are smooth, quatitative and produce no acid by-products. • Principal by-product is imidazole (relatively inert).
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194
SELECTRA-SIL®
Derivatizing Reagents
Alkylation Reagents
Alkylation reactions replace active hydrogens by an aliphatic or aliphatic-aromatic (benzyl) group. The principal use of this mode of derivation is to improve upon the chromatography of compounds such as free organic acids. Alkylation reactions can form ethers, thioethers, thioesters, n-alkylamines, amides and sulfonamides. These derivatives possess excellent stability and can be stored for extended periods of time.
TMPAH
(0.2 M Trimethylanilinium Hydroxide in Methanol)
• Used for the methylation of barbiturates, sedatives, xanthines, and alkaloids for GC. • The derivatization of these compounds often can be done in the injector of the GC. 4 CB 4-Carbethoxyhexafluorobutyrl Chloride • Peptides + Propionic anhydride converts N-termini and Lysines to propyl amides. This results in a decrease in net charge of the peptides and increased hydrophobicity. PIA Propionic Anhydride • It hydrates with water producing corrosive propionic acid. It is miscible in most organic solvents and decomposes with alcohol. Propionic anhydride used as an intermediate to produce dyes, pharmaceuticals, agrochemicals and other organic compounds
SELECTRA-SIL®
Derivatizing Reagents
Specialized Reagents
PFPOH (Pentafluoropropanol) or HFIP (Hexafluoro-2-propanol) • Used in combination with the acid anhydrides to promote reaction and removal of acidic by-products. • This reaction is especially used for carboxylic acids. • The addition of fluorine atoms into the molecule greatly adds to the sensitivity of certain detectors
( ECD ).
UCT, LLC • 2731 Bartram Road • Bristol, PA 19007 • 800.385.3153 • 215.781.9255 • www.unitedchem.com • Email: [email protected] ©UCT,LLC 2012 • All rights reserved
195
SELECTRA-SIL® Solvents for Derivatizing Reagents
Solvent Part Number Size Units
Acetonitrile (ACN) SACN-0-50 50 mL vial 1 ·
Acetonitrile is used as a solvent to promote silylation reactions. · It is a polar solvent.
Pyridine SPYR-0-50 50 mL vial 1 ·
Good solvent for many organic materials and reactions requiring a nucleophilic environment.
· A moderately polar solvent.
Silylation Reagents in 10 gram vials.
Part #: Name Abbreviation
SBSTFA-0-10 N,O-bis(trimethylsilyltrifluoroacetamide) BSTFA
SBSTFA-1-10 N,O-bis(trimethylsilyltrifluoroacetamide) w/1% trimethylchlorosilane BSTFA w/1% TMCS
SBSTFA-10-10 N,O-bis(trimethylsilyltrifluoroacetamide) w/10% trimethylchlorosilane BSTFA w/10% TMCS
SMSTFA-0-10 N-methyl-N-trimethylsilyltrifluoroacetamide MSTFA
SMSTFA-1-10 N-methyl-N-trimethylsilyltrifluoroacetamide MSTFA w/1% TMCS w/1% Trimethychlorosilane
SMSTFA-10-10 N-methyl-N-trimethylsilyltrifluoroacetamide MSTFA w/10% TMCS w/10% Trimethychlorosilane
SMTBSTFA-0-10 N-methyl-N-(t-butyldimethylsilyl)- trifluoroacetamide MTBSTFA
SMTBSTFA-1-10 N-methyl-N-(t-butyldimethylsilyl)- trifluoroacetamide MTBSTFA w/1% TMCS w/1% t-butyldimethylchlorosilane
SMTBSTFA-10-10 N-methyl-N-(t-butyldimethylsilyl)- trifluoroacetamide MTBSTFA w/10% TMCS w/10% t-butyldimethylchlorosilane
STMCS-0-10 Trimethylchlorosilane TMCS
UCT offers convenient sizes ranging from
one gram vials packaged in units of ten or
10, 25 and 100 gram vials.
UCT, LLC • 2731 Bartram Road • Bristol, PA 19007 • 800.385.3153 • 215.781.9255 • www.unitedchem.com • Email: [email protected] ©UCT,LLC 2012 • All rights reserved
196
Acylation Reagents in 10 gram vials.
Part #: Name Abbreviation
SMBTFA-0-10 N-methyl-bis-(trifluoroacetamide) MBTFA
SHFAA-0-10 Heptafluorobutyric acid anhydride HFAA
SPFAA-0-10 Pentafluoropropionic acid anhydride PFAA
STFAA-0-10 Trifluoroacetic acid anhydride TFAA
STFAI-0-5* N-trifluoroacetylimidazole TFAl
* 5 gram vial
Alkylation Reagents in 10 gram vials.
Part #: Name Abbreviation
S4CB-0-10 4-Carbethoxyhexafluorobutyryl Chloride 4CB
STMPAH-0-10 0.2 M Trimethylanilinium Hydroxide in Methanol TMPAH
SPIA-0-10 Propionic Anhydride PIA
Specialized Reagents
in 10 gram vials.
Part #: Name Abbreviation
SHFIP-0-10 Hexafluoro-2-propanol HFIP
SPFPOH-0-10 Pentafluoropropanol PFPOH